module Flat.Tutorial ( -- $setup -- $main ) where {- $setup To (de)serialise a data type, make it an instance of the 'Flat.Class.Flat' class. There is based support to automatically derive a correct instance. Let’s see some code. We need a couple of extensions: >>> :set -XDeriveGeneric -XDeriveAnyClass The @Flat@ top module: >>> import Flat And, just for fun, a couple of functions to display an encoded value as a sequence of bits: >>> import Flat.Instances.Test (flatBits,allBits) Define a few custom data types, deriving @Generic@ and @Flat@: >>> data Result = Bad | Good deriving (Show,Generic,Flat) >>> data Direction = North | South | Center | East | West deriving (Show,Generic,Flat) >>> data List a = Nil | Cons a (List a) deriving (Show,Generic,Flat) -} {- $main Now we can encode a List of Directions using 'Flat.Run.flat': >>> flat $ Cons North (Cons South Nil) "\149" The result is a strict . And decode it back using 'Flat.Run.unflat': >>> unflat . flat $ Cons North (Cons South Nil) :: Decoded (List Direction) Right (Cons North (Cons South Nil)) The result is a 'Flat.Decoded' value: 'Either' a 'Flat.DecodeException' or the actual value. === Optimal Bit-Encoding #optimal-bit-encoding# A pecularity of Flat is that it uses an optimal bit-encoding rather than the usual byte-oriented one. One bit is all we need for a 'Result' or for an empty 'List' value: >>> flatBits Good "1" >>> flatBits (Nil::List Direction) "0" Two or three bits suffice for a 'Direction' value: >>> flatBits South "01" >>> flatBits West "111" For the serialisation to work with byte-oriented devices or storage, we need to add some padding. To do so, rather than encoding a plain value, 'Flat.Run.flat' encodes a 'Flat.Filler.PostAligned' value, that's to say a value followed by a 'Flat.Filler.Filler' that stretches till the next byte boundary. In practice, the padding is a, possibly empty, sequence of 0s followed by a 1. For example, this list encodes as 7 bits: >>> flatBits $ Cons North (Cons South Nil) "1001010" And, with the added padding of a final "1", will snugly fit in a single byte: >>> allBits $ Cons North (Cons South Nil) "10010101" But .. you don't need to worry about these details as byte-padding is automatically added by the function 'Flat.Run.flat' and removed by 'Flat.Run.unflat'. === Pre-defined Instances Flat instances are already defined for relevant types of some common packages: array, base, bytestring, containers, dlist, mono-traversable, text, unordered-containers, vector. They are automatically imported by the "Flat" module. For example: >>> flatBits $ Just True "11" == Compatibility #compatibility# === * x32 and x64: 7.10.3, 8.0.2, 8.2.2, 8.4.4, 8.6.5, 8.8.3. * and : 8.0.2. === * @ghcjs-8.4.0.1@. NOTE: Some tests are not run for @ghcjs@ as they are related to unsupported features such as UTF16 encoding of Text and short . For details of what tests are skipped search @test/Spec.hs@ for @ghcjs_HOST_OS@. NOTE: Some older versions of @ghcjs@ and versions of @flat@ prior to 0.33 encoded @Double@ values incorrectly when not aligned with a byte boundary. === It builds (with @etlas 1.5.0.0@ and @eta-0.8.6b2@) and passes the @doctest-static@ test but it won't complete the main @spec@ test probably because of a recursive iteration issue, see . Support for @eta@ is not currently being actively mantained. == Known Bugs and Infelicities #known-bugs-and-infelicities# === Longish compilation times Relies more than other serialisation libraries on extensive inlining for its good performance, this unfortunately leads to longer compilation times. If you have many data types or very large ones this might become an issue. A couple of good practices that will eliminate or mitigate this problem are: - During development, turn optimisations off (@stack --fast@ or @-O0@ in the cabal file). - Keep your serialisation code in a separate module(s). === Data types with more than 512 constructors are currently unsupported This limit could be easily extended, shout if you need it. === Other . == Acknowledgements #acknowledgements# @flat@ reuses ideas and readapts code from various packages, mainly: @store@, @binary-bits@ and @binary@ and includes contributions from Justus Sagemüller. -}