{-# LANGUAGE FlexibleInstances #-}

{- Copyright (c) 2004-5 Thomas Jaeger, Don Stewart

This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2 of
the License, or (at your option) any later version.

This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.

You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
02111-1307, USA. -}

-- | Serialisation
module Lambdabot.Util.Serial
    ( Serial(..)

    , stdSerial
    , mapSerial
    , mapPackedSerial
    , assocListPackedSerial
    , mapListPackedSerial
    , readM
    , Packable(..) {- instances of Packable -}
    , readOnly
    ) where

import Data.Maybe               (mapMaybe)

import Data.Map (Map)
import qualified Data.Map as M

import qualified Data.ByteString.Char8 as P
import Data.ByteString.Char8 (ByteString)

import Data.ByteString.Lazy (fromChunks,toChunks)

import Codec.Compression.GZip

------------------------------------------------------------------------

-- A flexible (moreso than a typeclass) way to define introduction and
-- elimination for persistent state on a per-module basis.
--
data Serial s = Serial {
        serialize   :: s -> Maybe ByteString,
        deserialize :: ByteString -> Maybe s
     }

gzip   :: ByteString -> ByteString
gzip   = P.concat . toChunks . compress . fromChunks . (:[])

gunzip :: ByteString -> ByteString
gunzip = P.concat . toChunks . decompress . fromChunks . (:[])

--
-- read-only serialisation
--
readOnly :: (ByteString -> b) -> Serial b
readOnly f = Serial (const Nothing) (Just . f)

-- | Default `instance' for a Serial
stdSerial :: (Show s, Read s) => Serial s
stdSerial = Serial (Just. P.pack.show) (readM.P.unpack)

-- | Serializes a 'Map' type if both the key and the value are instances
-- of Read and Show. The serialization is done by converting the map to
-- and from lists. Results are saved line-wise, for better editing and
-- revison control.
--
mapSerial :: (Ord k, Show k, Show v, Read k, Read v) => Serial (Map k v)
mapSerial = Serial {
        serialize   = Just . P.pack . unlines . map show . M.toList,
        deserialize = Just . M.fromList . mapMaybe (readM . P.unpack) . P.lines
   }

------------------------------------------------------------------------

-- | 'readM' behaves like read, but catches failure in a monad.
-- this allocates a 20-30 M on startup...
readM :: (Monad m, Read a) => String -> m a
readM s = case [x | (x,t) <- {-# SCC "Serial.readM.reads" #-} reads s    -- bad!
               , ("","")  <- lex t] of
        [x] -> return x
        []  -> fail "Serial.readM: no parse"
        _   -> fail "Serial.readM: ambiguous parse"

class Packable t where
        readPacked :: ByteString -> t
        showPacked :: t -> ByteString

-- | An instance for Map Packed [Packed]
-- uses gzip compression
instance Packable (Map ByteString [ByteString]) where
        readPacked ps = M.fromList (readKV ( P.lines . gunzip $ ps))
             where
                readKV :: [ByteString] -> [(ByteString,[ByteString])]
                readKV []       =  []
                readKV (k:rest) = let (vs, rest') = break (== P.empty) rest
                                  in  (k,vs) : readKV (drop 1 rest')

        showPacked m = gzip
                     . P.unlines
                     . concatMap (\(k,vs) -> k : vs ++ [P.empty]) $ M.toList m

-- assumes single line second strings
instance Packable (Map ByteString ByteString) where
        readPacked ps = M.fromList (readKV (P.lines . gunzip $ ps))
                where
                  readKV :: [ByteString] -> [(ByteString,ByteString)]
                  readKV []         = []
                  readKV (k:v:rest) = (k,v) : readKV rest
                  readKV _      = error "Serial.readPacked: parse failed"

        showPacked m  = gzip. P.unlines . concatMap (\(k,v) -> [k,v]) $ M.toList m

instance Packable ([(ByteString,ByteString)]) where
        readPacked ps = readKV (P.lines . gunzip $ ps)
                where
                  readKV :: [ByteString] -> [(ByteString,ByteString)]
                  readKV []         = []
                  readKV (k:v:rest) = (k,v) : readKV rest
                  readKV _          = error "Serial.readPacked: parse failed"

        showPacked = gzip . P.unlines . concatMap (\(k,v) -> [k,v])

instance Packable (M.Map P.ByteString (Bool, [(String, Int)])) where
    readPacked = M.fromList . readKV . P.lines
        where
          readKV :: [P.ByteString] -> [(P.ByteString,(Bool, [(String, Int)]))]
          readKV []         = []
          readKV (k:v:rest) = (k, (read . P.unpack) v) : readKV rest
          readKV _          = error "Vote.readPacked: parse failed"

    showPacked m = P.unlines . concatMap (\(k,v) -> [k,P.pack . show $ v]) $ M.toList m

-- And for packed string maps
mapPackedSerial :: Serial (Map ByteString ByteString)
mapPackedSerial = Serial (Just . showPacked) (Just . readPacked)

-- And for list of packed string maps
mapListPackedSerial :: Serial (Map ByteString [ByteString])
mapListPackedSerial = Serial (Just . showPacked) (Just . readPacked)

-- And for association list
assocListPackedSerial :: Serial ([(ByteString,ByteString)])
assocListPackedSerial = Serial (Just . showPacked) (Just . readPacked)

------------------------------------------------------------------------