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module GHC.Cmm.CallConv (
  ParamLocation(..),
  assignArgumentsPos,
  assignStack,
  realArgRegsCover
) where

import GHC.Prelude

import GHC.Cmm.Expr
import GHC.Runtime.Heap.Layout
import GHC.Cmm (Convention(..))
import GHC.Cmm.Ppr () -- For Outputable instances

import GHC.Driver.Session
import GHC.Platform
import GHC.Platform.Profile
import GHC.Utils.Outputable
import GHC.Utils.Panic

-- Calculate the 'GlobalReg' or stack locations for function call
-- parameters as used by the Cmm calling convention.

data ParamLocation
  = RegisterParam GlobalReg
  | StackParam ByteOff

instance Outputable ParamLocation where
  ppr (RegisterParam g) = ppr g
  ppr (StackParam p)    = ppr p

-- |
-- Given a list of arguments, and a function that tells their types,
-- return a list showing where each argument is passed
--
assignArgumentsPos :: Profile
                   -> ByteOff           -- stack offset to start with
                   -> Convention
                   -> (a -> CmmType)    -- how to get a type from an arg
                   -> [a]               -- args
                   -> (
                        ByteOff              -- bytes of stack args
                      , [(a, ParamLocation)] -- args and locations
                      )

assignArgumentsPos profile off conv arg_ty reps = (stk_off, assignments)
    where
      platform = profilePlatform profile
      regs = case (reps, conv) of
               (_,   NativeNodeCall)   -> getRegsWithNode platform
               (_,   NativeDirectCall) -> getRegsWithoutNode platform
               ([_], NativeReturn)     -> allRegs platform
               (_,   NativeReturn)     -> getRegsWithNode platform
               -- GC calling convention *must* put values in registers
               (_,   GC)               -> allRegs platform
               (_,   Slow)             -> nodeOnly
      -- The calling conventions first assign arguments to registers,
      -- then switch to the stack when we first run out of registers
      -- (even if there are still available registers for args of a
      -- different type).  When returning an unboxed tuple, we also
      -- separate the stack arguments by pointerhood.
      (reg_assts, stk_args)  = assign_regs [] reps regs
      (stk_off,   stk_assts) = assignStack platform off arg_ty stk_args
      assignments = reg_assts ++ stk_assts

      assign_regs assts []     _    = (assts, [])
      assign_regs assts (r:rs) regs | isVecType ty   = vec
                                    | isFloatType ty = float
                                    | otherwise      = int
        where vec = case (w, regs) of
                      (W128, (vs, fs, ds, ls, s:ss))
                          | passVectorInReg W128 profile -> k (RegisterParam (XmmReg s), (vs, fs, ds, ls, ss))
                      (W256, (vs, fs, ds, ls, s:ss))
                          | passVectorInReg W256 profile -> k (RegisterParam (YmmReg s), (vs, fs, ds, ls, ss))
                      (W512, (vs, fs, ds, ls, s:ss))
                          | passVectorInReg W512 profile -> k (RegisterParam (ZmmReg s), (vs, fs, ds, ls, ss))
                      _ -> (assts, (r:rs))
              float = case (w, regs) of
                        (W32, (vs, fs, ds, ls, s:ss))
                            | passFloatInXmm          -> k (RegisterParam (FloatReg s), (vs, fs, ds, ls, ss))
                        (W32, (vs, f:fs, ds, ls, ss))
                            | not passFloatInXmm      -> k (RegisterParam f, (vs, fs, ds, ls, ss))
                        (W64, (vs, fs, ds, ls, s:ss))
                            | passFloatInXmm          -> k (RegisterParam (DoubleReg s), (vs, fs, ds, ls, ss))
                        (W64, (vs, fs, d:ds, ls, ss))
                            | not passFloatInXmm      -> k (RegisterParam d, (vs, fs, ds, ls, ss))
                        _ -> (assts, (r:rs))
              int = case (w, regs) of
                      (W128, _) -> panic "W128 unsupported register type"
                      (_, (v:vs, fs, ds, ls, ss)) | widthInBits w <= widthInBits (wordWidth platform)
                          -> k (RegisterParam (v gcp), (vs, fs, ds, ls, ss))
                      (_, (vs, fs, ds, l:ls, ss)) | widthInBits w > widthInBits (wordWidth platform)
                          -> k (RegisterParam l, (vs, fs, ds, ls, ss))
                      _   -> (assts, (r:rs))
              k (asst, regs') = assign_regs ((r, asst) : assts) rs regs'
              ty = arg_ty r
              w  = typeWidth ty
              gcp | isGcPtrType ty = VGcPtr
                  | otherwise      = VNonGcPtr
              passFloatInXmm = passFloatArgsInXmm platform

passFloatArgsInXmm :: Platform -> Bool
passFloatArgsInXmm platform = case platformArch platform of
                              ArchX86_64 -> True
                              ArchX86    -> False
                              _          -> False

-- We used to spill vector registers to the stack since the LLVM backend didn't
-- support vector registers in its calling convention. However, this has now
-- been fixed. This function remains only as a convenient way to re-enable
-- spilling when debugging code generation.
passVectorInReg :: Width -> Profile -> Bool
passVectorInReg _ _ = True

assignStack :: Platform -> ByteOff -> (a -> CmmType) -> [a]
            -> (
                 ByteOff              -- bytes of stack args
               , [(a, ParamLocation)] -- args and locations
               )
assignStack platform offset arg_ty args = assign_stk offset [] (reverse args)
 where
      assign_stk offset assts [] = (offset, assts)
      assign_stk offset assts (r:rs)
        = assign_stk off' ((r, StackParam off') : assts) rs
        where w    = typeWidth (arg_ty r)
              off' = offset + size
              -- Stack arguments always take a whole number of words, we never
              -- pack them unlike constructor fields.
              size = roundUpToWords platform (widthInBytes w)

-----------------------------------------------------------------------------
-- Local information about the registers available

type AvailRegs = ( [VGcPtr -> GlobalReg]   -- available vanilla regs.
                 , [GlobalReg]   -- floats
                 , [GlobalReg]   -- doubles
                 , [GlobalReg]   -- longs (int64 and word64)
                 , [Int]         -- XMM (floats and doubles)
                 )

-- Vanilla registers can contain pointers, Ints, Chars.
-- Floats and doubles have separate register supplies.
--
-- We take these register supplies from the *real* registers, i.e. those
-- that are guaranteed to map to machine registers.

getRegsWithoutNode, getRegsWithNode :: Platform -> AvailRegs
getRegsWithoutNode platform =
  ( filter (\r -> r VGcPtr /= node) (realVanillaRegs platform)
  , realFloatRegs platform
  , realDoubleRegs platform
  , realLongRegs platform
  , realXmmRegNos platform)

-- getRegsWithNode uses R1/node even if it isn't a register
getRegsWithNode platform =
  ( if null (realVanillaRegs platform)
    then [VanillaReg 1]
    else realVanillaRegs platform
  , realFloatRegs platform
  , realDoubleRegs platform
  , realLongRegs platform
  , realXmmRegNos platform)

allFloatRegs, allDoubleRegs, allLongRegs :: Platform -> [GlobalReg]
allVanillaRegs :: Platform -> [VGcPtr -> GlobalReg]
allXmmRegs :: Platform -> [Int]

allVanillaRegs platform = map VanillaReg $ regList (pc_MAX_Vanilla_REG (platformConstants platform))
allFloatRegs   platform = map FloatReg   $ regList (pc_MAX_Float_REG   (platformConstants platform))
allDoubleRegs  platform = map DoubleReg  $ regList (pc_MAX_Double_REG  (platformConstants platform))
allLongRegs    platform = map LongReg    $ regList (pc_MAX_Long_REG    (platformConstants platform))
allXmmRegs     platform =                  regList (pc_MAX_XMM_REG     (platformConstants platform))

realFloatRegs, realDoubleRegs, realLongRegs :: Platform -> [GlobalReg]
realVanillaRegs :: Platform -> [VGcPtr -> GlobalReg]

realVanillaRegs platform = map VanillaReg $ regList (pc_MAX_Real_Vanilla_REG (platformConstants platform))
realFloatRegs   platform = map FloatReg   $ regList (pc_MAX_Real_Float_REG   (platformConstants platform))
realDoubleRegs  platform = map DoubleReg  $ regList (pc_MAX_Real_Double_REG  (platformConstants platform))
realLongRegs    platform = map LongReg    $ regList (pc_MAX_Real_Long_REG    (platformConstants platform))

realXmmRegNos :: Platform -> [Int]
realXmmRegNos platform
    | isSse2Enabled platform = regList (pc_MAX_Real_XMM_REG (platformConstants platform))
    | otherwise              = []

regList :: Int -> [Int]
regList n = [1 .. n]

allRegs :: Platform -> AvailRegs
allRegs platform = ( allVanillaRegs platform
                   , allFloatRegs   platform
                   , allDoubleRegs  platform
                   , allLongRegs    platform
                   , allXmmRegs     platform
                   )

nodeOnly :: AvailRegs
nodeOnly = ([VanillaReg 1], [], [], [], [])

-- This returns the set of global registers that *cover* the machine registers
-- used for argument passing. On platforms where registers can overlap---right
-- now just x86-64, where Float and Double registers overlap---passing this set
-- of registers is guaranteed to preserve the contents of all live registers. We
-- only use this functionality in hand-written C-- code in the RTS.
realArgRegsCover :: Platform -> [GlobalReg]
realArgRegsCover platform
    | passFloatArgsInXmm platform
    = map ($ VGcPtr) (realVanillaRegs platform) ++
      realLongRegs platform ++
      realDoubleRegs platform -- we only need to save the low Double part of XMM registers.
                              -- Moreover, the NCG can't load/store full XMM
                              -- registers for now...

    | otherwise
    = map ($ VGcPtr) (realVanillaRegs platform) ++
      realFloatRegs  platform ++
      realDoubleRegs platform ++
      realLongRegs   platform
      -- we don't save XMM registers if they are not used for parameter passing