package decompress

  1. Overview
  2. Docs

RFC1951/DEFLATE codec.

RFC1951/DEFLATE is a IETF standard. Module provides non-blocking streaming codec to decode and encode DEFLATE encoding. It can efficiently work payload by payload without blocking IO.

Module provides LZ77 compression algorithm but let the client to define his algorithm as long as he uses shared queue provided in this module.

Prelude.

de wants to be self-contained. By this constraint, it provides convenience values to be used by others (like zz). The client should not use these functions even if they are available. Others libraries like Bigstringaf serve the same purpose of a much better way.

module Bigarray = Bigarray_compat

MirageOS compatibility.

The type for bigstring.

type optint = Optint.t

Type type for optimal integer.

val bigstring_empty : bigstring

An empty bigstring.

val bigstring_create : int -> bigstring

bigstring_create len returns a uninitialized bigstring of length len.

val bigstring_length : bigstring -> int

bigstring_length t is the length of the bigstring t, in bytes.

val io_buffer_size : int

Window.

type window

The type for windows.

val make_window : bits:int -> window

make_window allocates a new buffer which represents a window. It used by decoder and LZ77 compressor to keep tracking older inputs and:

  • process a copy from a distance by the decoder.
  • generate a copy from the compression algorithm.
val window_bits : window -> int

DEFLATE Decoder.

Decoder of RFC1951 DEFLATE codec. de provides a Inf.decoder to decode DEFLATE input and inflate it.

module Inf : sig ... end

Queue.

DEFLATE encoder needs a compressed input which can be transmited by a shared queue filled by compression algorithm. B is used between N and a compression algorithm like L. It provides a small representation of commands (see Queue.cmd) emitted by compression algorithm.

N encoder interprets Queue.cmd as fast as it can. Shared queue can be a bottleneck about the whole compression process. Indeed, it limits encoder on how many bytes it can produce. We recommend to make a queue as large as output buffer.

module Queue : sig ... end

Frequencies.

DYNAMIC DEFLATE block needs frequencies of code emitted by compression algorithm. literals and distances exist to keep frequencies while compression process.

type literals = private int array

The type of frequencies of literals (including lengths).

type distances = private int array

The type of frequencies of distances.

val make_literals : unit -> literals

make_literals allocates a new literals where frequencies of symbols (expect End Of Block) are set to 0.

val make_distances : unit -> distances

make_distances allocates a new distances where frequencies of distance symboles are set to 0.

val succ_literal : literals -> char -> unit

succ_literals literals chr increases frequency of chr.

val succ_length : literals -> int -> unit

succ_length literals l increases frequency of l code. l must be upper than 2 and lower than 259 according DEFLATE codec. Otherwise, it raises an Invalid_argument.

val succ_distance : distances -> int -> unit

succ_distance distance d increases frequency of d code. d must be upper than 0 and lower than 32769 according DEFLATE codec. Otherwise, it raises an Invalid_argument.

DEFLATE Encoder.

module Def : sig ... end

LZ77 compression algorithm.

Distribution provides LZ77 compression algorithm which can be used with N. However, the client must know others algorithms exist. This algorithm is used by zz to implement ZLIB layer.

module Lz77 : sig ... end

Higher API.

de provides useful but complex API. This sub-module provides an easier way to compress/uncompress DEFLATE codec. Even if the client still can give some details, we recommend to use M and N if you want a precise control about memory consumption.

module Higher : sig ... end

/ *

val unsafe_set_cursor : Inf.decoder -> int -> unit
module Lookup : sig ... end
module T : sig ... end
OCaml

Innovation. Community. Security.