{-# LANGUAGE CPP, UnboxedTuples, MagicHash, DeriveDataTypeable #-}

-- |
-- Module      : Data.Primitive.Types
-- Copyright   : (c) Roman Leshchinskiy 2009-2012
-- License     : BSD-style
--
-- Maintainer  : Roman Leshchinskiy <rl@cse.unsw.edu.au>
-- Portability : non-portable
--
-- Basic types and classes for primitive array operations
--

module Data.Primitive.Types (
  Prim(..),

  Addr(..),
) where

import Control.Monad.Primitive
import Data.Primitive.MachDeps
import Data.Primitive.Internal.Operations

import GHC.Base (
    Int(..), Char(..),
  )
import GHC.Float (
    Float(..), Double(..)
  )
import GHC.Word (
    Word(..), Word8(..), Word16(..), Word32(..), Word64(..)
  )
import GHC.Int (
    Int8(..), Int16(..), Int32(..), Int64(..)
  )

import GHC.Prim
#if __GLASGOW_HASKELL__ >= 706
    hiding (setByteArray#)
#endif

import Data.Typeable ( Typeable )
import Data.Data ( Data(..) )
import Data.Primitive.Internal.Compat ( isTrue#, mkNoRepType )

-- | A machine address
data Addr = Addr Addr# deriving ( Typeable )

instance Eq Addr where
  Addr a# == Addr b# = isTrue# (eqAddr# a# b#)
  Addr a# /= Addr b# = isTrue# (neAddr# a# b#)

instance Ord Addr where
  Addr a# > Addr b# = isTrue# (gtAddr# a# b#)
  Addr a# >= Addr b# = isTrue# (geAddr# a# b#)
  Addr a# < Addr b# = isTrue# (ltAddr# a# b#)
  Addr a# <= Addr b# = isTrue# (leAddr# a# b#)

instance Data Addr where
  toConstr _ = error "toConstr"
  gunfold _ _ = error "gunfold"
  dataTypeOf _ = mkNoRepType "Data.Primitive.Types.Addr"


-- | Class of types supporting primitive array operations
class Prim a where

  -- | Size of values of type @a@. The argument is not used.
  sizeOf#    :: a -> Int#

  -- | Alignment of values of type @a@. The argument is not used.
  alignment# :: a -> Int#

  -- | Read a value from the array. The offset is in elements of type
  -- @a@ rather than in bytes.
  indexByteArray# :: ByteArray# -> Int# -> a

  -- | Read a value from the mutable array. The offset is in elements of type
  -- @a@ rather than in bytes.
  readByteArray# :: MutableByteArray# s -> Int# -> State# s -> (# State# s, a #)

  -- | Write a value to the mutable array. The offset is in elements of type
  -- @a@ rather than in bytes.
  writeByteArray# :: MutableByteArray# s -> Int# -> a -> State# s -> State# s

  -- | Fill a slice of the mutable array with a value. The offset and length
  -- of the chunk are in elements of type @a@ rather than in bytes.
  setByteArray# :: MutableByteArray# s -> Int# -> Int# -> a -> State# s -> State# s

  -- | Read a value from a memory position given by an address and an offset.
  -- The memory block the address refers to must be immutable. The offset is in
  -- elements of type @a@ rather than in bytes.
  indexOffAddr# :: Addr# -> Int# -> a

  -- | Read a value from a memory position given by an address and an offset.
  -- The offset is in elements of type @a@ rather than in bytes.
  readOffAddr# :: Addr# -> Int# -> State# s -> (# State# s, a #)

  -- | Write a value to a memory position given by an address and an offset.
  -- The offset is in elements of type @a@ rather than in bytes.
  writeOffAddr# :: Addr# -> Int# -> a -> State# s -> State# s

  -- | Fill a memory block given by an address, an offset and a length.
  -- The offset and length are in elements of type @a@ rather than in bytes.
  setOffAddr# :: Addr# -> Int# -> Int# -> a -> State# s -> State# s

#define derivePrim(ty, ctr, sz, align, idx_arr, rd_arr, wr_arr, set_arr, idx_addr, rd_addr, wr_addr, set_addr) \
instance Prim ty where {                                        \
  sizeOf# _ = unI# sz                                           \
; alignment# _ = unI# align                                     \
; indexByteArray# arr# i# = ctr (idx_arr arr# i#)               \
; readByteArray#  arr# i# s# = case rd_arr arr# i# s# of        \
                        { (# s1#, x# #) -> (# s1#, ctr x# #) }  \
; writeByteArray# arr# i# (ctr x#) s# = wr_arr arr# i# x# s#    \
; setByteArray# arr# i# n# (ctr x#) s#                          \
    = let { i = fromIntegral (I# i#)                            \
          ; n = fromIntegral (I# n#)                            \
          } in                                                  \
      case unsafeCoerce# (internal (set_arr arr# i n x#)) s# of \
        { (# s1#, _ #) -> s1# }                                 \
                                                                \
; indexOffAddr# addr# i# = ctr (idx_addr addr# i#)              \
; readOffAddr#  addr# i# s# = case rd_addr addr# i# s# of       \
                        { (# s1#, x# #) -> (# s1#, ctr x# #) }  \
; writeOffAddr# addr# i# (ctr x#) s# = wr_addr addr# i# x# s#   \
; setOffAddr# addr# i# n# (ctr x#) s#                           \
    = let { i = fromIntegral (I# i#)                            \
          ; n = fromIntegral (I# n#)                            \
          } in                                                  \
      case unsafeCoerce# (internal (set_addr addr# i n x#)) s# of \
        { (# s1#, _ #) -> s1# }                                 \
; {-# INLINE sizeOf# #-}                                        \
; {-# INLINE alignment# #-}                                     \
; {-# INLINE indexByteArray# #-}                                \
; {-# INLINE readByteArray# #-}                                 \
; {-# INLINE writeByteArray# #-}                                \
; {-# INLINE setByteArray# #-}                                  \
; {-# INLINE indexOffAddr# #-}                                  \
; {-# INLINE readOffAddr# #-}                                   \
; {-# INLINE writeOffAddr# #-}                                  \
; {-# INLINE setOffAddr# #-}                                    \
}

unI# :: Int -> Int#
unI# (I# n#) = n#

derivePrim(Word, W#, sIZEOF_WORD, aLIGNMENT_WORD,
           indexWordArray#, readWordArray#, writeWordArray#, setWordArray#,
           indexWordOffAddr#, readWordOffAddr#, writeWordOffAddr#, setWordOffAddr#)
derivePrim(Word8, W8#, sIZEOF_WORD8, aLIGNMENT_WORD8,
           indexWord8Array#, readWord8Array#, writeWord8Array#, setWord8Array#,
           indexWord8OffAddr#, readWord8OffAddr#, writeWord8OffAddr#, setWord8OffAddr#)
derivePrim(Word16, W16#, sIZEOF_WORD16, aLIGNMENT_WORD16,
           indexWord16Array#, readWord16Array#, writeWord16Array#, setWord16Array#,
           indexWord16OffAddr#, readWord16OffAddr#, writeWord16OffAddr#, setWord16OffAddr#)
derivePrim(Word32, W32#, sIZEOF_WORD32, aLIGNMENT_WORD32,
           indexWord32Array#, readWord32Array#, writeWord32Array#, setWord32Array#,
           indexWord32OffAddr#, readWord32OffAddr#, writeWord32OffAddr#, setWord32OffAddr#)
derivePrim(Word64, W64#, sIZEOF_WORD64, aLIGNMENT_WORD64,
           indexWord64Array#, readWord64Array#, writeWord64Array#, setWord64Array#,
           indexWord64OffAddr#, readWord64OffAddr#, writeWord64OffAddr#, setWord64OffAddr#)
derivePrim(Int, I#, sIZEOF_INT, aLIGNMENT_INT,
           indexIntArray#, readIntArray#, writeIntArray#, setIntArray#,
           indexIntOffAddr#, readIntOffAddr#, writeIntOffAddr#, setIntOffAddr#)
derivePrim(Int8, I8#, sIZEOF_INT8, aLIGNMENT_INT8,
           indexInt8Array#, readInt8Array#, writeInt8Array#, setInt8Array#,
           indexInt8OffAddr#, readInt8OffAddr#, writeInt8OffAddr#, setInt8OffAddr#)
derivePrim(Int16, I16#, sIZEOF_INT16, aLIGNMENT_INT16,
           indexInt16Array#, readInt16Array#, writeInt16Array#, setInt16Array#,
           indexInt16OffAddr#, readInt16OffAddr#, writeInt16OffAddr#, setInt16OffAddr#)
derivePrim(Int32, I32#, sIZEOF_INT32, aLIGNMENT_INT32,
           indexInt32Array#, readInt32Array#, writeInt32Array#, setInt32Array#,
           indexInt32OffAddr#, readInt32OffAddr#, writeInt32OffAddr#, setInt32OffAddr#)
derivePrim(Int64, I64#, sIZEOF_INT64, aLIGNMENT_INT64,
           indexInt64Array#, readInt64Array#, writeInt64Array#, setInt64Array#,
           indexInt64OffAddr#, readInt64OffAddr#, writeInt64OffAddr#, setInt64OffAddr#)
derivePrim(Float, F#, sIZEOF_FLOAT, aLIGNMENT_FLOAT,
           indexFloatArray#, readFloatArray#, writeFloatArray#, setFloatArray#,
           indexFloatOffAddr#, readFloatOffAddr#, writeFloatOffAddr#, setFloatOffAddr#)
derivePrim(Double, D#, sIZEOF_DOUBLE, aLIGNMENT_DOUBLE,
           indexDoubleArray#, readDoubleArray#, writeDoubleArray#, setDoubleArray#,
           indexDoubleOffAddr#, readDoubleOffAddr#, writeDoubleOffAddr#, setDoubleOffAddr#)
derivePrim(Char, C#, sIZEOF_CHAR, aLIGNMENT_CHAR,
           indexWideCharArray#, readWideCharArray#, writeWideCharArray#, setWideCharArray#,
           indexWideCharOffAddr#, readWideCharOffAddr#, writeWideCharOffAddr#, setWideCharOffAddr#)
derivePrim(Addr, Addr, sIZEOF_PTR, aLIGNMENT_PTR,
           indexAddrArray#, readAddrArray#, writeAddrArray#, setAddrArray#,
           indexAddrOffAddr#, readAddrOffAddr#, writeAddrOffAddr#, setAddrOffAddr#)