Copyright | Lennart Kolmodin |
---|---|
License | BSD3-style (see LICENSE) |
Maintainer | Lennart Kolmodin <[email protected]> |
Stability | stable |
Portability | Portable to Hugs and GHC. Requires MPTCs |
Safe Haskell | Safe |
Language | Haskell98 |
The Put monad. A monad for efficiently constructing lazy bytestrings.
Synopsis
- type Put = PutM ()
- newtype PutM a = Put {
- unPut :: PairS a
- runPut :: Put -> ByteString
- runPutM :: PutM a -> (a, ByteString)
- putBuilder :: Builder -> Put
- execPut :: PutM a -> Builder
- flush :: Put
- putWord8 :: Word8 -> Put
- putInt8 :: Int8 -> Put
- putByteString :: ByteString -> Put
- putLazyByteString :: ByteString -> Put
- putShortByteString :: ShortByteString -> Put
- putWord16be :: Word16 -> Put
- putWord32be :: Word32 -> Put
- putWord64be :: Word64 -> Put
- putInt16be :: Int16 -> Put
- putInt32be :: Int32 -> Put
- putInt64be :: Int64 -> Put
- putFloatbe :: Float -> Put
- putDoublebe :: Double -> Put
- putWord16le :: Word16 -> Put
- putWord32le :: Word32 -> Put
- putWord64le :: Word64 -> Put
- putInt16le :: Int16 -> Put
- putInt32le :: Int32 -> Put
- putInt64le :: Int64 -> Put
- putFloatle :: Float -> Put
- putDoublele :: Double -> Put
- putWordhost :: Word -> Put
- putWord16host :: Word16 -> Put
- putWord32host :: Word32 -> Put
- putWord64host :: Word64 -> Put
- putInthost :: Int -> Put
- putInt16host :: Int16 -> Put
- putInt32host :: Int32 -> Put
- putInt64host :: Int64 -> Put
- putFloathost :: Float -> Put
- putDoublehost :: Double -> Put
- putCharUtf8 :: Char -> Put
- putStringUtf8 :: String -> Put
The Put type
The PutM type. A Writer monad over the efficient Builder monoid.
putBuilder :: Builder -> Put Source #
Flushing the implicit parse state
Pop the ByteString we have constructed so far, if any, yielding a new chunk in the result ByteString.
Primitives
putByteString :: ByteString -> Put Source #
An efficient primitive to write a strict ByteString into the output buffer. It flushes the current buffer, and writes the argument into a new chunk.
putLazyByteString :: ByteString -> Put Source #
Write a lazy ByteString efficiently, simply appending the lazy ByteString chunks to the output buffer
putShortByteString :: ShortByteString -> Put Source #
Write ShortByteString
to the buffer
Big-endian primitives
putWord16be :: Word16 -> Put Source #
Write a Word16 in big endian format
putWord32be :: Word32 -> Put Source #
Write a Word32 in big endian format
putWord64be :: Word64 -> Put Source #
Write a Word64 in big endian format
putInt16be :: Int16 -> Put Source #
Write an Int16 in big endian format
putInt32be :: Int32 -> Put Source #
Write an Int32 in big endian format
putInt64be :: Int64 -> Put Source #
Write an Int64 in big endian format
Little-endian primitives
putWord16le :: Word16 -> Put Source #
Write a Word16 in little endian format
putWord32le :: Word32 -> Put Source #
Write a Word32 in little endian format
putWord64le :: Word64 -> Put Source #
Write a Word64 in little endian format
putInt16le :: Int16 -> Put Source #
Write an Int16 in little endian format
putInt32le :: Int32 -> Put Source #
Write an Int32 in little endian format
putInt64le :: Int64 -> Put Source #
Write an Int64 in little endian format
Host-endian, unaligned writes
putWordhost :: Word -> Put Source #
O(1). Write a single native machine word. The word is written in host order, host endian form, for the machine you're on. On a 64 bit machine the Word is an 8 byte value, on a 32 bit machine, 4 bytes. Values written this way are not portable to different endian or word sized machines, without conversion.
putWord16host :: Word16 -> Put Source #
O(1). Write a Word16 in native host order and host endianness.
For portability issues see putWordhost
.
putWord32host :: Word32 -> Put Source #
O(1). Write a Word32 in native host order and host endianness.
For portability issues see putWordhost
.
putWord64host :: Word64 -> Put Source #
O(1). Write a Word64 in native host order
On a 32 bit machine we write two host order Word32s, in big endian form.
For portability issues see putWordhost
.
putInthost :: Int -> Put Source #
O(1). Write a single native machine word. The word is written in host order, host endian form, for the machine you're on. On a 64 bit machine the Int is an 8 byte value, on a 32 bit machine, 4 bytes. Values written this way are not portable to different endian or word sized machines, without conversion.
putInt16host :: Int16 -> Put Source #
O(1). Write an Int16 in native host order and host endianness.
For portability issues see putInthost
.
putInt32host :: Int32 -> Put Source #
O(1). Write an Int32 in native host order and host endianness.
For portability issues see putInthost
.
putInt64host :: Int64 -> Put Source #
O(1). Write an Int64 in native host order
On a 32 bit machine we write two host order Int32s, in big endian form.
For portability issues see putInthost
.
Unicode
putCharUtf8 :: Char -> Put Source #
Write a character using UTF-8 encoding.
putStringUtf8 :: String -> Put Source #
Write a String using UTF-8 encoding.