library/Octane/Type/CompressedWord.hs

{-# LANGUAGE DataKinds #-}
{-# LANGUAGE DeriveGeneric #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE OverloadedLabels #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE StrictData #-}
{-# LANGUAGE TemplateHaskell #-}
{-# LANGUAGE TypeFamilies #-}

module Octane.Type.CompressedWord
  ( CompressedWord(..)
  , fromCompressedWord
  ) where

import Data.Aeson ((.=))
import Data.Function ((&))

import qualified Control.DeepSeq as DeepSeq
import qualified Data.Aeson as Aeson
import qualified Data.Binary.Bits as BinaryBit
import qualified Data.Binary.Bits.Get as BinaryBit
import qualified Data.Binary.Bits.Put as BinaryBit
import qualified Data.Bits as Bits
import qualified Data.Default.Class as Default
import qualified Data.OverloadedRecords.TH as OverloadedRecords
import qualified GHC.Generics as Generics
import qualified Octane.Type.Boolean as Boolean

-- | A compressed, unsigned integer. When serialized, the least significant bit
-- is first. Bits are serialized until the next bit would be greater than the
-- limit, or the number of bits necessary to reach the limit has been reached,
-- whichever comes first.
data CompressedWord = CompressedWord
  { compressedWordLimit :: Word
  , compressedWordValue :: Word
  } deriving (Eq, Generics.Generic, Show)

$(OverloadedRecords.overloadedRecord Default.def ''CompressedWord)

-- | Abuses the first argument to 'BinaryBit.getBits' as the maximum value.
instance BinaryBit.BinaryBit CompressedWord where
  getBits n = do
    let limit = fromIntegral n
    value <- getStep limit (bitSize limit) 0 0
    pure (CompressedWord limit value)
  putBits _ compressedWord = do
    let limit = fromIntegral (#limit compressedWord)
    let value = fromIntegral (#value compressedWord)
    let maxBits = bitSize limit
    let upper = (2 ^ (maxBits - 1)) - 1
    let lower = limit - upper
    let numBits =
          if lower > value || value > upper
            then maxBits
            else maxBits - 1
    BinaryBit.putWord64be numBits value

instance DeepSeq.NFData CompressedWord

-- | Encoded as an object.
instance Aeson.ToJSON CompressedWord where
  toJSON compressedWord =
    Aeson.object
      ["Limit" .= #limit compressedWord, "Value" .= #value compressedWord]

-- | Converts a 'CompressedWord' into any integral value. This is a lossy
-- conversion because it discards the compressed word's maximum value.
fromCompressedWord
  :: (Integral a)
  => CompressedWord -> a
fromCompressedWord compressedWord = compressedWord & #value & fromIntegral

bitSize
  :: (Integral a, Integral b)
  => a -> b
bitSize x = x & fromIntegral & logBase (2 :: Double) & ceiling

getStep :: Word -> Word -> Word -> Word -> BinaryBit.BitGet Word
getStep limit maxBits position value = do
  let x = Bits.shiftL 1 (fromIntegral position)
  if position < maxBits && value + x <= limit
    then do
      (bit :: Boolean.Boolean) <- BinaryBit.getBits 0
      let newValue =
            if #unpack bit
              then value + x
              else value
      getStep limit maxBits (position + 1) newValue
    else pure value