1105 lines
36 KiB
Haskell
1105 lines
36 KiB
Haskell
{-# LANGUAGE CPP, ForeignFunctionInterface, DeriveDataTypeable #-}
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#if __GLASGOW_HASKELL__ >= 702
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{-# LANGUAGE DeriveGeneric #-}
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#endif
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#if __GLASGOW_HASKELL__ >= 706
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{-# LANGUAGE CApiFFI #-}
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#endif
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-----------------------------------------------------------------------------
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-- |
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-- Copyright : (c) 2006-2015 Duncan Coutts
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-- License : BSD-style
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--
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-- Maintainer : duncan@community.haskell.org
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--
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-- Zlib wrapper layer
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--
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-----------------------------------------------------------------------------
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module Codec.Compression.Zlib.Stream (
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-- * The Zlib state monad
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Stream,
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State,
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mkState,
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runStream,
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unsafeLiftIO,
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finalise,
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-- * Initialisation
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deflateInit,
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inflateInit,
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-- ** Initialisation parameters
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Format(..),
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gzipFormat,
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zlibFormat,
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rawFormat,
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gzipOrZlibFormat,
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formatSupportsDictionary,
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CompressionLevel(..),
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defaultCompression,
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noCompression,
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bestSpeed,
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bestCompression,
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compressionLevel,
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Method(..),
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deflateMethod,
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WindowBits(..),
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defaultWindowBits,
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windowBits,
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MemoryLevel(..),
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defaultMemoryLevel,
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minMemoryLevel,
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maxMemoryLevel,
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memoryLevel,
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CompressionStrategy(..),
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defaultStrategy,
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filteredStrategy,
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huffmanOnlyStrategy,
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-- * The buisness
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deflate,
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inflate,
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Status(..),
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Flush(..),
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ErrorCode(..),
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-- ** Special operations
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inflateReset,
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-- * Buffer management
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-- ** Input buffer
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pushInputBuffer,
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inputBufferEmpty,
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popRemainingInputBuffer,
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-- ** Output buffer
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pushOutputBuffer,
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popOutputBuffer,
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outputBufferBytesAvailable,
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outputBufferSpaceRemaining,
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outputBufferFull,
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-- ** Dictionary
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deflateSetDictionary,
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inflateSetDictionary,
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-- ** Dictionary hashes
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DictionaryHash,
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dictionaryHash,
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zeroDictionaryHash,
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#ifdef DEBUG
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-- * Debugging
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consistencyCheck,
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dump,
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trace,
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#endif
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) where
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-- Note we don't use the MIN_VERSION_* macros here for compatability with
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-- old Cabal versions that come with old GHC, that didn't provide these
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-- macros for .hsc files. So we use __GLASGOW_HASKELL__ as a proxy.
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import Foreign
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( Word8, Ptr, nullPtr, plusPtr, peekByteOff, pokeByteOff
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, ForeignPtr, FinalizerPtr, mallocForeignPtrBytes, addForeignPtrFinalizer
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, withForeignPtr, touchForeignPtr, minusPtr )
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#if __GLASGOW_HASKELL__ >= 702
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import Foreign.ForeignPtr.Unsafe ( unsafeForeignPtrToPtr )
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import System.IO.Unsafe ( unsafePerformIO )
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#else
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import Foreign ( unsafeForeignPtrToPtr, unsafePerformIO )
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#endif
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#ifdef __GLASGOW_HASKELL__
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import Foreign
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( finalizeForeignPtr )
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#endif
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import Foreign.C
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import Data.ByteString.Internal (nullForeignPtr)
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import qualified Data.ByteString.Unsafe as B
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import Data.ByteString (ByteString)
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#if !(__GLASGOW_HASKELL__ >= 710)
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import Control.Applicative (Applicative(..))
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#endif
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import Control.Monad (ap,liftM)
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#if MIN_VERSION_base(4,9,0)
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import qualified Control.Monad.Fail as Fail
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#endif
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#if __GLASGOW_HASKELL__ >= 702
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#if __GLASGOW_HASKELL__ >= 708
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import Control.Monad.ST.Strict
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#else
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import Control.Monad.ST.Strict hiding (unsafeIOToST)
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#endif
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import Control.Monad.ST.Unsafe
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#else
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import Control.Monad.ST.Strict
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#endif
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import Control.Exception (assert)
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import Data.Typeable (Typeable)
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#if __GLASGOW_HASKELL__ >= 702
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import GHC.Generics (Generic)
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#endif
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#ifdef DEBUG
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import System.IO (hPutStrLn, stderr)
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#endif
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import Prelude hiding (length)
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#include "zlib.h"
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pushInputBuffer :: ForeignPtr Word8 -> Int -> Int -> Stream ()
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pushInputBuffer inBuf' offset length = do
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-- must not push a new input buffer if the last one is not used up
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inAvail <- getInAvail
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assert (inAvail == 0) $ return ()
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-- Now that we're setting a new input buffer, we can be sure that zlib no
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-- longer has a reference to the old one. Therefore this is the last point
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-- at which the old buffer had to be retained. It's safe to release now.
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inBuf <- getInBuf
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unsafeLiftIO $ touchForeignPtr inBuf
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-- now set the available input buffer ptr and length
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setInBuf inBuf'
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setInAvail length
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setInNext (unsafeForeignPtrToPtr inBuf' `plusPtr` offset)
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-- Note the 'unsafe'. We are passing the raw ptr inside inBuf' to zlib.
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-- To make this safe we need to hold on to the ForeignPtr for at least as
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-- long as zlib is using the underlying raw ptr.
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inputBufferEmpty :: Stream Bool
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inputBufferEmpty = getInAvail >>= return . (==0)
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popRemainingInputBuffer :: Stream (ForeignPtr Word8, Int, Int)
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popRemainingInputBuffer = do
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inBuf <- getInBuf
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inNext <- getInNext
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inAvail <- getInAvail
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-- there really should be something to pop, otherwise it's silly
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assert (inAvail > 0) $ return ()
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setInAvail 0
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return (inBuf, inNext `minusPtr` unsafeForeignPtrToPtr inBuf, inAvail)
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pushOutputBuffer :: ForeignPtr Word8 -> Int -> Int -> Stream ()
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pushOutputBuffer outBuf' offset length = do
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--must not push a new buffer if there is still data in the old one
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outAvail <- getOutAvail
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assert (outAvail == 0) $ return ()
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-- Note that there may still be free space in the output buffer, that's ok,
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-- you might not want to bother completely filling the output buffer say if
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-- there's only a few free bytes left.
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outBuf <- getOutBuf
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unsafeLiftIO $ touchForeignPtr outBuf
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-- now set the available input buffer ptr and length
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setOutBuf outBuf'
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setOutFree length
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setOutNext (unsafeForeignPtrToPtr outBuf' `plusPtr` offset)
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setOutOffset offset
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setOutAvail 0
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-- get that part of the output buffer that is currently full
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-- (might be 0, use outputBufferBytesAvailable to check)
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-- this may leave some space remaining in the buffer, use
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-- outputBufferSpaceRemaining to check.
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popOutputBuffer :: Stream (ForeignPtr Word8, Int, Int)
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popOutputBuffer = do
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outBuf <- getOutBuf
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outOffset <- getOutOffset
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outAvail <- getOutAvail
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-- there really should be something to pop, otherwise it's silly
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assert (outAvail > 0) $ return ()
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setOutOffset (outOffset + outAvail)
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setOutAvail 0
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return (outBuf, outOffset, outAvail)
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-- this is the number of bytes available in the output buffer
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outputBufferBytesAvailable :: Stream Int
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outputBufferBytesAvailable = getOutAvail
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-- you needen't get all the output immediately, you can continue until
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-- there is no more output space available, this tells you that amount
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outputBufferSpaceRemaining :: Stream Int
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outputBufferSpaceRemaining = getOutFree
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-- you only need to supply a new buffer when there is no more output buffer
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-- space remaining
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outputBufferFull :: Stream Bool
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outputBufferFull = liftM (==0) outputBufferSpaceRemaining
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-- you can only run this when the output buffer is not empty
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-- you can run it when the input buffer is empty but it doesn't do anything
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-- after running deflate either the output buffer will be full
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-- or the input buffer will be empty (or both)
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deflate :: Flush -> Stream Status
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deflate flush = do
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outFree <- getOutFree
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-- deflate needs free space in the output buffer
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assert (outFree > 0) $ return ()
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result <- deflate_ flush
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outFree' <- getOutFree
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-- number of bytes of extra output there is available as a result of
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-- the call to deflate:
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let outExtra = outFree - outFree'
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outAvail <- getOutAvail
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setOutAvail (outAvail + outExtra)
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return result
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inflate :: Flush -> Stream Status
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inflate flush = do
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outFree <- getOutFree
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-- inflate needs free space in the output buffer
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assert (outFree > 0) $ return ()
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result <- inflate_ flush
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outFree' <- getOutFree
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-- number of bytes of extra output there is available as a result of
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-- the call to inflate:
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let outExtra = outFree - outFree'
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outAvail <- getOutAvail
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setOutAvail (outAvail + outExtra)
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return result
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inflateReset :: Stream ()
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inflateReset = do
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outAvail <- getOutAvail
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inAvail <- getInAvail
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-- At the point where this is used, all the output should have been consumed
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-- and any trailing input should be extracted and resupplied explicitly, not
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-- just left.
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assert (outAvail == 0 && inAvail == 0) $ return ()
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err <- withStreamState $ \zstream ->
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c_inflateReset zstream
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failIfError err
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deflateSetDictionary :: ByteString -> Stream Status
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deflateSetDictionary dict = do
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err <- withStreamState $ \zstream ->
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B.unsafeUseAsCStringLen dict $ \(ptr, len) ->
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c_deflateSetDictionary zstream ptr (fromIntegral len)
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toStatus err
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inflateSetDictionary :: ByteString -> Stream Status
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inflateSetDictionary dict = do
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err <- withStreamState $ \zstream -> do
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B.unsafeUseAsCStringLen dict $ \(ptr, len) ->
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c_inflateSetDictionary zstream ptr (fromIntegral len)
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toStatus err
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-- | A hash of a custom compression dictionary. These hashes are used by
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-- zlib as dictionary identifiers.
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-- (The particular hash function used is Adler32.)
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--
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newtype DictionaryHash = DictHash CULong
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deriving (Eq, Ord, Read, Show)
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-- | Update a running 'DictionaryHash'. You can generate a 'DictionaryHash'
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-- from one or more 'ByteString's by starting from 'zeroDictionaryHash', e.g.
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--
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-- > dictionaryHash zeroDictionaryHash :: ByteString -> DictionaryHash
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--
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-- or
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--
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-- > foldl' dictionaryHash zeroDictionaryHash :: [ByteString] -> DictionaryHash
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--
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dictionaryHash :: DictionaryHash -> ByteString -> DictionaryHash
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dictionaryHash (DictHash adler) dict =
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unsafePerformIO $
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B.unsafeUseAsCStringLen dict $ \(ptr, len) ->
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liftM DictHash $ c_adler32 adler ptr (fromIntegral len)
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-- | A zero 'DictionaryHash' to use as the initial value with 'dictionaryHash'.
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--
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zeroDictionaryHash :: DictionaryHash
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zeroDictionaryHash = DictHash 0
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----------------------------
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-- Stream monad
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--
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newtype Stream a = Z {
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unZ :: ForeignPtr StreamState
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-> ForeignPtr Word8
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-> ForeignPtr Word8
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-> Int -> Int
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-> IO (ForeignPtr Word8
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,ForeignPtr Word8
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,Int, Int, a)
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}
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instance Functor Stream where
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fmap = liftM
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instance Applicative Stream where
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pure = returnZ
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(<*>) = ap
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(*>) = thenZ_
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instance Monad Stream where
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(>>=) = thenZ
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-- m >>= f = (m `thenZ` \a -> consistencyCheck `thenZ_` returnZ a) `thenZ` f
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(>>) = (*>)
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#if !MIN_VERSION_base(4,8,0)
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return = pure
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#endif
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#if !MIN_VERSION_base(4,9,0)
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fail = (finalise >>) . failZ
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#elif !MIN_VERSION_base(4,13,0)
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fail = Fail.fail
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#endif
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#if MIN_VERSION_base(4,9,0)
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instance Fail.MonadFail Stream where
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fail = (finalise >>) . failZ
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#endif
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returnZ :: a -> Stream a
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returnZ a = Z $ \_ inBuf outBuf outOffset outLength ->
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return (inBuf, outBuf, outOffset, outLength, a)
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{-# INLINE returnZ #-}
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thenZ :: Stream a -> (a -> Stream b) -> Stream b
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thenZ (Z m) f =
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Z $ \stream inBuf outBuf outOffset outLength ->
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m stream inBuf outBuf outOffset outLength >>=
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\(inBuf', outBuf', outOffset', outLength', a) ->
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unZ (f a) stream inBuf' outBuf' outOffset' outLength'
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{-# INLINE thenZ #-}
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thenZ_ :: Stream a -> Stream b -> Stream b
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thenZ_ (Z m) f =
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Z $ \stream inBuf outBuf outOffset outLength ->
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m stream inBuf outBuf outOffset outLength >>=
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\(inBuf', outBuf', outOffset', outLength', _) ->
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unZ f stream inBuf' outBuf' outOffset' outLength'
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{-# INLINE thenZ_ #-}
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failZ :: String -> Stream a
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failZ msg = Z (\_ _ _ _ _ -> fail ("Codec.Compression.Zlib: " ++ msg))
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data State s = State !(ForeignPtr StreamState)
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!(ForeignPtr Word8)
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!(ForeignPtr Word8)
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{-# UNPACK #-} !Int
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{-# UNPACK #-} !Int
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mkState :: ST s (State s)
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mkState = unsafeIOToST $ do
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stream <- mallocForeignPtrBytes (#{const sizeof(z_stream)})
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withForeignPtr stream $ \ptr -> do
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#{poke z_stream, msg} ptr nullPtr
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#{poke z_stream, zalloc} ptr nullPtr
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#{poke z_stream, zfree} ptr nullPtr
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#{poke z_stream, opaque} ptr nullPtr
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#{poke z_stream, next_in} ptr nullPtr
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#{poke z_stream, next_out} ptr nullPtr
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#{poke z_stream, avail_in} ptr (0 :: CUInt)
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#{poke z_stream, avail_out} ptr (0 :: CUInt)
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return (State stream nullForeignPtr nullForeignPtr 0 0)
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runStream :: Stream a -> State s -> ST s (a, State s)
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runStream (Z m) (State stream inBuf outBuf outOffset outLength) =
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unsafeIOToST $
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m stream inBuf outBuf outOffset outLength >>=
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\(inBuf', outBuf', outOffset', outLength', a) ->
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return (a, State stream inBuf' outBuf' outOffset' outLength')
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-- This is marked as unsafe because runStream uses unsafeIOToST so anything
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-- lifted here can end up being unsafePerformIO'd.
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unsafeLiftIO :: IO a -> Stream a
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unsafeLiftIO m = Z $ \_stream inBuf outBuf outOffset outLength -> do
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a <- m
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return (inBuf, outBuf, outOffset, outLength, a)
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getStreamState :: Stream (ForeignPtr StreamState)
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getStreamState = Z $ \stream inBuf outBuf outOffset outLength -> do
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return (inBuf, outBuf, outOffset, outLength, stream)
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getInBuf :: Stream (ForeignPtr Word8)
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getInBuf = Z $ \_stream inBuf outBuf outOffset outLength -> do
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return (inBuf, outBuf, outOffset, outLength, inBuf)
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getOutBuf :: Stream (ForeignPtr Word8)
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getOutBuf = Z $ \_stream inBuf outBuf outOffset outLength -> do
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return (inBuf, outBuf, outOffset, outLength, outBuf)
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getOutOffset :: Stream Int
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getOutOffset = Z $ \_stream inBuf outBuf outOffset outLength -> do
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return (inBuf, outBuf, outOffset, outLength, outOffset)
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getOutAvail :: Stream Int
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getOutAvail = Z $ \_stream inBuf outBuf outOffset outLength -> do
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return (inBuf, outBuf, outOffset, outLength, outLength)
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setInBuf :: ForeignPtr Word8 -> Stream ()
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setInBuf inBuf = Z $ \_stream _ outBuf outOffset outLength -> do
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return (inBuf, outBuf, outOffset, outLength, ())
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setOutBuf :: ForeignPtr Word8 -> Stream ()
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setOutBuf outBuf = Z $ \_stream inBuf _ outOffset outLength -> do
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return (inBuf, outBuf, outOffset, outLength, ())
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setOutOffset :: Int -> Stream ()
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setOutOffset outOffset = Z $ \_stream inBuf outBuf _ outLength -> do
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return (inBuf, outBuf, outOffset, outLength, ())
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setOutAvail :: Int -> Stream ()
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setOutAvail outLength = Z $ \_stream inBuf outBuf outOffset _ -> do
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return (inBuf, outBuf, outOffset, outLength, ())
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----------------------------
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-- Debug stuff
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--
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#ifdef DEBUG
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trace :: String -> Stream ()
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trace = unsafeLiftIO . hPutStrLn stderr
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dump :: Stream ()
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dump = do
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inNext <- getInNext
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inAvail <- getInAvail
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outNext <- getOutNext
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outFree <- getOutFree
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outAvail <- getOutAvail
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outOffset <- getOutOffset
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unsafeLiftIO $ hPutStrLn stderr $
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"Stream {\n" ++
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" inNext = " ++ show inNext ++ ",\n" ++
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" inAvail = " ++ show inAvail ++ ",\n" ++
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"\n" ++
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" outNext = " ++ show outNext ++ ",\n" ++
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" outFree = " ++ show outFree ++ ",\n" ++
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" outAvail = " ++ show outAvail ++ ",\n" ++
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" outOffset = " ++ show outOffset ++ "\n" ++
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"}"
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consistencyCheck
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consistencyCheck :: Stream ()
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consistencyCheck = do
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outBuf <- getOutBuf
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outOffset <- getOutOffset
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outAvail <- getOutAvail
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outNext <- getOutNext
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let outBufPtr = unsafeForeignPtrToPtr outBuf
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assert (outBufPtr `plusPtr` (outOffset + outAvail) == outNext) $ return ()
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#endif
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----------------------------
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-- zlib wrapper layer
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--
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data Status =
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Ok
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| StreamEnd
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| Error ErrorCode String
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data ErrorCode =
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NeedDict DictionaryHash
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| FileError
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| StreamError
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| DataError
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| MemoryError
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| BufferError -- ^ No progress was possible or there was not enough room in
|
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-- the output buffer when 'Finish' is used. Note that
|
|
-- 'BuferError' is not fatal, and 'inflate' can be called
|
|
-- again with more input and more output space to continue.
|
|
| VersionError
|
|
| Unexpected
|
|
|
|
toStatus :: CInt -> Stream Status
|
|
toStatus errno = case errno of
|
|
(#{const Z_OK}) -> return Ok
|
|
(#{const Z_STREAM_END}) -> return StreamEnd
|
|
(#{const Z_NEED_DICT}) -> do
|
|
adler <- withStreamPtr (#{peek z_stream, adler})
|
|
err (NeedDict (DictHash adler)) "custom dictionary needed"
|
|
(#{const Z_BUF_ERROR}) -> err BufferError "buffer error"
|
|
(#{const Z_ERRNO}) -> err FileError "file error"
|
|
(#{const Z_STREAM_ERROR}) -> err StreamError "stream error"
|
|
(#{const Z_DATA_ERROR}) -> err DataError "data error"
|
|
(#{const Z_MEM_ERROR}) -> err MemoryError "insufficient memory"
|
|
(#{const Z_VERSION_ERROR}) -> err VersionError "incompatible zlib version"
|
|
other -> return $ Error Unexpected
|
|
("unexpected zlib status: " ++ show other)
|
|
where
|
|
err errCode altMsg = liftM (Error errCode) $ do
|
|
msgPtr <- withStreamPtr (#{peek z_stream, msg})
|
|
if msgPtr /= nullPtr
|
|
then unsafeLiftIO (peekCAString msgPtr)
|
|
else return altMsg
|
|
|
|
failIfError :: CInt -> Stream ()
|
|
failIfError errno = toStatus errno >>= \status -> case status of
|
|
(Error _ msg) -> fail msg
|
|
_ -> return ()
|
|
|
|
|
|
data Flush =
|
|
NoFlush
|
|
| SyncFlush
|
|
| FullFlush
|
|
| Finish
|
|
-- | Block -- only available in zlib 1.2 and later, uncomment if you need it.
|
|
|
|
fromFlush :: Flush -> CInt
|
|
fromFlush NoFlush = #{const Z_NO_FLUSH}
|
|
fromFlush SyncFlush = #{const Z_SYNC_FLUSH}
|
|
fromFlush FullFlush = #{const Z_FULL_FLUSH}
|
|
fromFlush Finish = #{const Z_FINISH}
|
|
-- fromFlush Block = #{const Z_BLOCK}
|
|
|
|
|
|
-- | The format used for compression or decompression. There are three
|
|
-- variations.
|
|
--
|
|
data Format = GZip | Zlib | Raw | GZipOrZlib
|
|
deriving (Eq, Ord, Enum, Bounded, Show, Typeable
|
|
#if __GLASGOW_HASKELL__ >= 702
|
|
, Generic
|
|
#endif
|
|
)
|
|
|
|
{-# DEPRECATED GZip "Use gzipFormat. Format constructors will be hidden in version 0.7" #-}
|
|
{-# DEPRECATED Zlib "Use zlibFormat. Format constructors will be hidden in version 0.7" #-}
|
|
{-# DEPRECATED Raw "Use rawFormat. Format constructors will be hidden in version 0.7" #-}
|
|
{-# DEPRECATED GZipOrZlib "Use gzipOrZlibFormat. Format constructors will be hidden in version 0.7" #-}
|
|
|
|
-- | The gzip format uses a header with a checksum and some optional meta-data
|
|
-- about the compressed file. It is intended primarily for compressing
|
|
-- individual files but is also sometimes used for network protocols such as
|
|
-- HTTP. The format is described in detail in RFC #1952
|
|
-- <http://www.ietf.org/rfc/rfc1952.txt>
|
|
--
|
|
gzipFormat :: Format
|
|
gzipFormat = GZip
|
|
|
|
-- | The zlib format uses a minimal header with a checksum but no other
|
|
-- meta-data. It is especially designed for use in network protocols. The
|
|
-- format is described in detail in RFC #1950
|
|
-- <http://www.ietf.org/rfc/rfc1950.txt>
|
|
--
|
|
zlibFormat :: Format
|
|
zlibFormat = Zlib
|
|
|
|
-- | The \'raw\' format is just the compressed data stream without any
|
|
-- additional header, meta-data or data-integrity checksum. The format is
|
|
-- described in detail in RFC #1951 <http://www.ietf.org/rfc/rfc1951.txt>
|
|
--
|
|
rawFormat :: Format
|
|
rawFormat = Raw
|
|
|
|
-- | This is not a format as such. It enabled zlib or gzip decoding with
|
|
-- automatic header detection. This only makes sense for decompression.
|
|
--
|
|
gzipOrZlibFormat :: Format
|
|
gzipOrZlibFormat = GZipOrZlib
|
|
|
|
formatSupportsDictionary :: Format -> Bool
|
|
formatSupportsDictionary Zlib = True
|
|
formatSupportsDictionary Raw = True
|
|
formatSupportsDictionary _ = False
|
|
|
|
-- | The compression method
|
|
--
|
|
data Method = Deflated
|
|
deriving (Eq, Ord, Enum, Bounded, Show, Typeable
|
|
#if __GLASGOW_HASKELL__ >= 702
|
|
, Generic
|
|
#endif
|
|
)
|
|
|
|
{-# DEPRECATED Deflated "Use deflateMethod. Method constructors will be hidden in version 0.7" #-}
|
|
|
|
-- | \'Deflate\' is the only method supported in this version of zlib.
|
|
-- Indeed it is likely to be the only method that ever will be supported.
|
|
--
|
|
deflateMethod :: Method
|
|
deflateMethod = Deflated
|
|
|
|
fromMethod :: Method -> CInt
|
|
fromMethod Deflated = #{const Z_DEFLATED}
|
|
|
|
|
|
-- | The compression level parameter controls the amount of compression. This
|
|
-- is a trade-off between the amount of compression and the time required to do
|
|
-- the compression.
|
|
--
|
|
data CompressionLevel =
|
|
DefaultCompression
|
|
| NoCompression
|
|
| BestSpeed
|
|
| BestCompression
|
|
| CompressionLevel Int
|
|
deriving (Eq, Show, Typeable
|
|
#if __GLASGOW_HASKELL__ >= 702
|
|
, Generic
|
|
#endif
|
|
)
|
|
|
|
{-# DEPRECATED DefaultCompression "Use defaultCompression. CompressionLevel constructors will be hidden in version 0.7" #-}
|
|
{-# DEPRECATED NoCompression "Use noCompression. CompressionLevel constructors will be hidden in version 0.7" #-}
|
|
{-# DEPRECATED BestSpeed "Use bestSpeed. CompressionLevel constructors will be hidden in version 0.7" #-}
|
|
{-# DEPRECATED BestCompression "Use bestCompression. CompressionLevel constructors will be hidden in version 0.7" #-}
|
|
--FIXME: cannot deprecate constructor named the same as the type
|
|
{- DEPRECATED CompressionLevel "Use compressionLevel. CompressionLevel constructors will be hidden in version 0.7" -}
|
|
|
|
-- | The default compression level is 6 (that is, biased towards higher
|
|
-- compression at expense of speed).
|
|
defaultCompression :: CompressionLevel
|
|
defaultCompression = DefaultCompression
|
|
|
|
-- | No compression, just a block copy.
|
|
noCompression :: CompressionLevel
|
|
noCompression = CompressionLevel 0
|
|
|
|
-- | The fastest compression method (less compression)
|
|
bestSpeed :: CompressionLevel
|
|
bestSpeed = CompressionLevel 1
|
|
|
|
-- | The slowest compression method (best compression).
|
|
bestCompression :: CompressionLevel
|
|
bestCompression = CompressionLevel 9
|
|
|
|
-- | A specific compression level between 0 and 9.
|
|
compressionLevel :: Int -> CompressionLevel
|
|
compressionLevel n
|
|
| n >= 0 && n <= 9 = CompressionLevel n
|
|
| otherwise = error "CompressionLevel must be in the range 0..9"
|
|
|
|
fromCompressionLevel :: CompressionLevel -> CInt
|
|
fromCompressionLevel DefaultCompression = -1
|
|
fromCompressionLevel NoCompression = 0
|
|
fromCompressionLevel BestSpeed = 1
|
|
fromCompressionLevel BestCompression = 9
|
|
fromCompressionLevel (CompressionLevel n)
|
|
| n >= 0 && n <= 9 = fromIntegral n
|
|
| otherwise = error "CompressLevel must be in the range 1..9"
|
|
|
|
|
|
-- | This specifies the size of the compression window. Larger values of this
|
|
-- parameter result in better compression at the expense of higher memory
|
|
-- usage.
|
|
--
|
|
-- The compression window size is the value of the the window bits raised to
|
|
-- the power 2. The window bits must be in the range @9..15@ which corresponds
|
|
-- to compression window sizes of 512b to 32Kb. The default is 15 which is also
|
|
-- the maximum size.
|
|
--
|
|
-- The total amount of memory used depends on the window bits and the
|
|
-- 'MemoryLevel'. See the 'MemoryLevel' for the details.
|
|
--
|
|
data WindowBits = WindowBits Int
|
|
| DefaultWindowBits -- This constructor must be last to make
|
|
-- the Ord instance work. The Ord instance
|
|
-- is used by the tests.
|
|
-- It makse sense because the default value
|
|
-- is is also the max value at 15.
|
|
deriving (Eq, Ord, Show, Typeable
|
|
#if __GLASGOW_HASKELL__ >= 702
|
|
, Generic
|
|
#endif
|
|
)
|
|
|
|
{-# DEPRECATED DefaultWindowBits "Use defaultWindowBits. WindowBits constructors will be hidden in version 0.7" #-}
|
|
--FIXME: cannot deprecate constructor named the same as the type
|
|
{- DEPRECATED WindowBits "Use windowBits. WindowBits constructors will be hidden in version 0.7" -}
|
|
|
|
-- | The default 'WindowBits' is 15 which is also the maximum size.
|
|
--
|
|
defaultWindowBits :: WindowBits
|
|
defaultWindowBits = WindowBits 15
|
|
|
|
-- | A specific compression window size, specified in bits in the range @9..15@
|
|
--
|
|
windowBits :: Int -> WindowBits
|
|
windowBits n
|
|
| n >= 9 && n <= 15 = WindowBits n
|
|
| otherwise = error "WindowBits must be in the range 9..15"
|
|
|
|
fromWindowBits :: Format -> WindowBits-> CInt
|
|
fromWindowBits format bits = (formatModifier format) (checkWindowBits bits)
|
|
where checkWindowBits DefaultWindowBits = 15
|
|
checkWindowBits (WindowBits n)
|
|
| n >= 9 && n <= 15 = fromIntegral n
|
|
| otherwise = error "WindowBits must be in the range 9..15"
|
|
formatModifier Zlib = id
|
|
formatModifier GZip = (+16)
|
|
formatModifier GZipOrZlib = (+32)
|
|
formatModifier Raw = negate
|
|
|
|
|
|
-- | The 'MemoryLevel' parameter specifies how much memory should be allocated
|
|
-- for the internal compression state. It is a tradoff between memory usage,
|
|
-- compression ratio and compression speed. Using more memory allows faster
|
|
-- compression and a better compression ratio.
|
|
--
|
|
-- The total amount of memory used for compression depends on the 'WindowBits'
|
|
-- and the 'MemoryLevel'. For decompression it depends only on the
|
|
-- 'WindowBits'. The totals are given by the functions:
|
|
--
|
|
-- > compressTotal windowBits memLevel = 4 * 2^windowBits + 512 * 2^memLevel
|
|
-- > decompressTotal windowBits = 2^windowBits
|
|
--
|
|
-- For example, for compression with the default @windowBits = 15@ and
|
|
-- @memLevel = 8@ uses @256Kb@. So for example a network server with 100
|
|
-- concurrent compressed streams would use @25Mb@. The memory per stream can be
|
|
-- halved (at the cost of somewhat degraded and slower compressionby) by
|
|
-- reducing the @windowBits@ and @memLevel@ by one.
|
|
--
|
|
-- Decompression takes less memory, the default @windowBits = 15@ corresponds
|
|
-- to just @32Kb@.
|
|
--
|
|
data MemoryLevel =
|
|
DefaultMemoryLevel
|
|
| MinMemoryLevel
|
|
| MaxMemoryLevel
|
|
| MemoryLevel Int
|
|
deriving (Eq, Show, Typeable
|
|
#if __GLASGOW_HASKELL__ >= 702
|
|
, Generic
|
|
#endif
|
|
)
|
|
|
|
{-# DEPRECATED DefaultMemoryLevel "Use defaultMemoryLevel. MemoryLevel constructors will be hidden in version 0.7" #-}
|
|
{-# DEPRECATED MinMemoryLevel "Use minMemoryLevel. MemoryLevel constructors will be hidden in version 0.7" #-}
|
|
{-# DEPRECATED MaxMemoryLevel "Use maxMemoryLevel. MemoryLevel constructors will be hidden in version 0.7" #-}
|
|
--FIXME: cannot deprecate constructor named the same as the type
|
|
{- DEPRECATED MemoryLevel "Use memoryLevel. MemoryLevel constructors will be hidden in version 0.7" -}
|
|
|
|
-- | The default memory level. (Equivalent to @'memoryLevel' 8@)
|
|
--
|
|
defaultMemoryLevel :: MemoryLevel
|
|
defaultMemoryLevel = MemoryLevel 8
|
|
|
|
-- | Use minimum memory. This is slow and reduces the compression ratio.
|
|
-- (Equivalent to @'memoryLevel' 1@)
|
|
--
|
|
minMemoryLevel :: MemoryLevel
|
|
minMemoryLevel = MemoryLevel 1
|
|
|
|
-- | Use maximum memory for optimal compression speed.
|
|
-- (Equivalent to @'memoryLevel' 9@)
|
|
--
|
|
maxMemoryLevel :: MemoryLevel
|
|
maxMemoryLevel = MemoryLevel 9
|
|
|
|
-- | A specific level in the range @1..9@
|
|
--
|
|
memoryLevel :: Int -> MemoryLevel
|
|
memoryLevel n
|
|
| n >= 1 && n <= 9 = MemoryLevel n
|
|
| otherwise = error "MemoryLevel must be in the range 1..9"
|
|
|
|
fromMemoryLevel :: MemoryLevel -> CInt
|
|
fromMemoryLevel DefaultMemoryLevel = 8
|
|
fromMemoryLevel MinMemoryLevel = 1
|
|
fromMemoryLevel MaxMemoryLevel = 9
|
|
fromMemoryLevel (MemoryLevel n)
|
|
| n >= 1 && n <= 9 = fromIntegral n
|
|
| otherwise = error "MemoryLevel must be in the range 1..9"
|
|
|
|
|
|
-- | The strategy parameter is used to tune the compression algorithm.
|
|
--
|
|
-- The strategy parameter only affects the compression ratio but not the
|
|
-- correctness of the compressed output even if it is not set appropriately.
|
|
--
|
|
data CompressionStrategy =
|
|
DefaultStrategy
|
|
| Filtered
|
|
| HuffmanOnly
|
|
deriving (Eq, Ord, Enum, Bounded, Show, Typeable
|
|
#if __GLASGOW_HASKELL__ >= 702
|
|
, Generic
|
|
#endif
|
|
)
|
|
|
|
{-
|
|
-- -- only available in zlib 1.2 and later, uncomment if you need it.
|
|
| RLE -- ^ Use 'RLE' to limit match distances to one (run-length
|
|
-- encoding). 'RLE' is designed to be almost as fast as
|
|
-- 'HuffmanOnly', but give better compression for PNG
|
|
-- image data.
|
|
| Fixed -- ^ 'Fixed' prevents the use of dynamic Huffman codes,
|
|
-- allowing for a simpler decoder for special applications.
|
|
-}
|
|
|
|
{-# DEPRECATED DefaultStrategy "Use defaultStrategy. CompressionStrategy constructors will be hidden in version 0.7" #-}
|
|
{-# DEPRECATED Filtered "Use filteredStrategy. CompressionStrategy constructors will be hidden in version 0.7" #-}
|
|
{-# DEPRECATED HuffmanOnly "Use huffmanOnlyStrategy. CompressionStrategy constructors will be hidden in version 0.7" #-}
|
|
|
|
-- | Use this default compression strategy for normal data.
|
|
--
|
|
defaultStrategy :: CompressionStrategy
|
|
defaultStrategy = DefaultStrategy
|
|
|
|
-- | Use the filtered compression strategy for data produced by a filter (or
|
|
-- predictor). Filtered data consists mostly of small values with a somewhat
|
|
-- random distribution. In this case, the compression algorithm is tuned to
|
|
-- compress them better. The effect of this strategy is to force more Huffman
|
|
-- coding and less string matching; it is somewhat intermediate between
|
|
-- 'defaultCompressionStrategy' and 'huffmanOnlyCompressionStrategy'.
|
|
--
|
|
filteredStrategy :: CompressionStrategy
|
|
filteredStrategy = Filtered
|
|
|
|
-- | Use the Huffman-only compression strategy to force Huffman encoding only
|
|
-- (no string match).
|
|
--
|
|
huffmanOnlyStrategy :: CompressionStrategy
|
|
huffmanOnlyStrategy = HuffmanOnly
|
|
|
|
|
|
fromCompressionStrategy :: CompressionStrategy -> CInt
|
|
fromCompressionStrategy DefaultStrategy = #{const Z_DEFAULT_STRATEGY}
|
|
fromCompressionStrategy Filtered = #{const Z_FILTERED}
|
|
fromCompressionStrategy HuffmanOnly = #{const Z_HUFFMAN_ONLY}
|
|
--fromCompressionStrategy RLE = #{const Z_RLE}
|
|
--fromCompressionStrategy Fixed = #{const Z_FIXED}
|
|
|
|
|
|
withStreamPtr :: (Ptr StreamState -> IO a) -> Stream a
|
|
withStreamPtr f = do
|
|
stream <- getStreamState
|
|
unsafeLiftIO (withForeignPtr stream f)
|
|
|
|
withStreamState :: (StreamState -> IO a) -> Stream a
|
|
withStreamState f = do
|
|
stream <- getStreamState
|
|
unsafeLiftIO (withForeignPtr stream (f . StreamState))
|
|
|
|
setInAvail :: Int -> Stream ()
|
|
setInAvail val = withStreamPtr $ \ptr ->
|
|
#{poke z_stream, avail_in} ptr (fromIntegral val :: CUInt)
|
|
|
|
getInAvail :: Stream Int
|
|
getInAvail = liftM (fromIntegral :: CUInt -> Int) $
|
|
withStreamPtr (#{peek z_stream, avail_in})
|
|
|
|
setInNext :: Ptr Word8 -> Stream ()
|
|
setInNext val = withStreamPtr (\ptr -> #{poke z_stream, next_in} ptr val)
|
|
|
|
getInNext :: Stream (Ptr Word8)
|
|
getInNext = withStreamPtr (#{peek z_stream, next_in})
|
|
|
|
setOutFree :: Int -> Stream ()
|
|
setOutFree val = withStreamPtr $ \ptr ->
|
|
#{poke z_stream, avail_out} ptr (fromIntegral val :: CUInt)
|
|
|
|
getOutFree :: Stream Int
|
|
getOutFree = liftM (fromIntegral :: CUInt -> Int) $
|
|
withStreamPtr (#{peek z_stream, avail_out})
|
|
|
|
setOutNext :: Ptr Word8 -> Stream ()
|
|
setOutNext val = withStreamPtr (\ptr -> #{poke z_stream, next_out} ptr val)
|
|
|
|
#ifdef DEBUG
|
|
getOutNext :: Stream (Ptr Word8)
|
|
getOutNext = withStreamPtr (#{peek z_stream, next_out})
|
|
#endif
|
|
|
|
inflateInit :: Format -> WindowBits -> Stream ()
|
|
inflateInit format bits = do
|
|
checkFormatSupported format
|
|
err <- withStreamState $ \zstream ->
|
|
c_inflateInit2 zstream (fromIntegral (fromWindowBits format bits))
|
|
failIfError err
|
|
getStreamState >>= unsafeLiftIO . addForeignPtrFinalizer c_inflateEnd
|
|
|
|
deflateInit :: Format
|
|
-> CompressionLevel
|
|
-> Method
|
|
-> WindowBits
|
|
-> MemoryLevel
|
|
-> CompressionStrategy
|
|
-> Stream ()
|
|
deflateInit format compLevel method bits memLevel strategy = do
|
|
checkFormatSupported format
|
|
err <- withStreamState $ \zstream ->
|
|
c_deflateInit2 zstream
|
|
(fromCompressionLevel compLevel)
|
|
(fromMethod method)
|
|
(fromWindowBits format bits)
|
|
(fromMemoryLevel memLevel)
|
|
(fromCompressionStrategy strategy)
|
|
failIfError err
|
|
getStreamState >>= unsafeLiftIO . addForeignPtrFinalizer c_deflateEnd
|
|
|
|
inflate_ :: Flush -> Stream Status
|
|
inflate_ flush = do
|
|
err <- withStreamState $ \zstream ->
|
|
c_inflate zstream (fromFlush flush)
|
|
toStatus err
|
|
|
|
deflate_ :: Flush -> Stream Status
|
|
deflate_ flush = do
|
|
err <- withStreamState $ \zstream ->
|
|
c_deflate zstream (fromFlush flush)
|
|
toStatus err
|
|
|
|
-- | This never needs to be used as the stream's resources will be released
|
|
-- automatically when no longer needed, however this can be used to release
|
|
-- them early. Only use this when you can guarantee that the stream will no
|
|
-- longer be needed, for example if an error occurs or if the stream ends.
|
|
--
|
|
finalise :: Stream ()
|
|
#ifdef __GLASGOW_HASKELL__
|
|
--TODO: finalizeForeignPtr is ghc-only
|
|
finalise = getStreamState >>= unsafeLiftIO . finalizeForeignPtr
|
|
#else
|
|
finalise = return ()
|
|
#endif
|
|
|
|
checkFormatSupported :: Format -> Stream ()
|
|
checkFormatSupported format = do
|
|
version <- unsafeLiftIO (peekCAString =<< c_zlibVersion)
|
|
case version of
|
|
('1':'.':'1':'.':_)
|
|
| format == GZip
|
|
|| format == GZipOrZlib
|
|
-> fail $ "version 1.1.x of the zlib C library does not support the"
|
|
++ " 'gzip' format via the in-memory api, only the 'raw' and "
|
|
++ " 'zlib' formats."
|
|
_ -> return ()
|
|
|
|
----------------------
|
|
-- The foreign imports
|
|
|
|
newtype StreamState = StreamState (Ptr StreamState)
|
|
|
|
-- inflateInit2 and deflateInit2 are actually defined as macros in zlib.h
|
|
-- They are defined in terms of inflateInit2_ and deflateInit2_ passing two
|
|
-- additional arguments used to detect compatability problems. They pass the
|
|
-- version of zlib as a char * and the size of the z_stream struct.
|
|
-- If we compile via C then we can avoid this hassle however thats not really
|
|
-- kosher since the Haskell FFI is defined at the C ABI level, not the C
|
|
-- language level. There is no requirement to compile via C and pick up C
|
|
-- headers. So it's much better if we can make it work properly and that'd
|
|
-- also allow compiling via ghc's ncg which is a good thing since the C
|
|
-- backend is not going to be around forever.
|
|
--
|
|
-- So we define c_inflateInit2 and c_deflateInit2 here as wrappers around
|
|
-- their _ counterparts and pass the extra args.
|
|
--
|
|
-- As of GHC 7.6, we can import macros directly using the CApiFFI extension.
|
|
-- This avoids the need for the hsc2hs #{const_str} construct, which means
|
|
-- hsc2hs can run in cross-compilation mode.
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##ifdef NON_BLOCKING_FFI
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##define SAFTY safe
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##else
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##define SAFTY unsafe
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##endif
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#if __GLASGOW_HASKELL__ >= 706
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foreign import capi unsafe "zlib.h inflateInit2"
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c_inflateInit2 :: StreamState -> CInt -> IO CInt
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foreign import capi unsafe "zlib.h deflateInit2"
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c_deflateInit2 :: StreamState
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-> CInt -> CInt -> CInt -> CInt -> CInt -> IO CInt
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#else
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foreign import ccall unsafe "zlib.h inflateInit2_"
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c_inflateInit2_ :: StreamState -> CInt -> Ptr CChar -> CInt -> IO CInt
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c_inflateInit2 :: StreamState -> CInt -> IO CInt
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c_inflateInit2 z n =
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withCAString #{const_str ZLIB_VERSION} $ \versionStr ->
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c_inflateInit2_ z n versionStr (#{const sizeof(z_stream)} :: CInt)
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foreign import ccall unsafe "zlib.h deflateInit2_"
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c_deflateInit2_ :: StreamState
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-> CInt -> CInt -> CInt -> CInt -> CInt
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-> Ptr CChar -> CInt
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-> IO CInt
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c_deflateInit2 :: StreamState
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-> CInt -> CInt -> CInt -> CInt -> CInt -> IO CInt
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c_deflateInit2 z a b c d e =
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withCAString #{const_str ZLIB_VERSION} $ \versionStr ->
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c_deflateInit2_ z a b c d e versionStr (#{const sizeof(z_stream)} :: CInt)
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#endif
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foreign import ccall SAFTY "zlib.h inflate"
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c_inflate :: StreamState -> CInt -> IO CInt
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foreign import ccall unsafe "zlib.h &inflateEnd"
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c_inflateEnd :: FinalizerPtr StreamState
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foreign import ccall unsafe "zlib.h inflateReset"
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c_inflateReset :: StreamState -> IO CInt
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foreign import ccall unsafe "zlib.h deflateSetDictionary"
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c_deflateSetDictionary :: StreamState
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-> Ptr CChar
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-> CUInt
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-> IO CInt
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foreign import ccall unsafe "zlib.h inflateSetDictionary"
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c_inflateSetDictionary :: StreamState
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-> Ptr CChar
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-> CUInt
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-> IO CInt
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foreign import ccall SAFTY "zlib.h deflate"
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c_deflate :: StreamState -> CInt -> IO CInt
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foreign import ccall unsafe "zlib.h &deflateEnd"
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c_deflateEnd :: FinalizerPtr StreamState
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foreign import ccall unsafe "zlib.h zlibVersion"
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c_zlibVersion :: IO CString
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foreign import ccall unsafe "zlib.h adler32"
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c_adler32 :: CULong
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-> Ptr CChar
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-> CUInt
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-> IO CULong
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