rscompress-transformation

Crates.iorscompress-transformation
lib.rsrscompress-transformation
version0.2.3
sourcesrc
created_at2021-01-30 18:34:09.162494
updated_at2021-05-15 11:19:11.954969
descriptionLibrary for data transformation supporting rscompress.
homepagehttps://github.com/ucyo/rscompress
repositoryhttps://github.com/ucyo/rscompress/
max_upload_size
id348552
size30,454
Cayoglu (ucyo)

documentation

https://github.com/ucyo/rscompress/

README

rscompress

A compression library in Rust with focus on scientific data.

Disclaimer

This is a rewrite and merge of several compression algorithms developed during my time as a phd student:

The dissertation can be downloaded from https://doi.org/10.5445/IR/1000105055

Architecture

The library is split into one base and four supporting libraries. The base library orchestrates the supporting libraries. All compression algorithms follow the same basic structure:

  1. Decorrelate data using transformations
  2. Approximate the data, if lossy compression is needed
  3. Code the data

Additionally, check if each step executed as expected.

                   +----------------+      lossless      +----------+
                   |                |                    |          |
Start   +------>   | Transformation |   +------------>   |  Coding  |   +------>   End
                   |                |                    |          |
                   +----------------+                    +----------+

                           +                                   ^
                           |                                   |
                           |  lossy                            |
                           |                                   |
                           v                                   |
                                                               |
                   +---------------+                           |
                   |               |                           |
                   | Approximation |  +------------------------+
                   |               |
                   +---------------+

This library will follow the same principles.

Transformations

Transformations are algorithms which represent the same information using a different alphabet. Good transformation algorithms eliminate redundant information in the data. A mathematical function can be seen as a transformation of a series of data. The series 1 1 2 3 5 8 13 21 .. can expressed as f(x) = f(x-1) + f(x-2). We mapped the information represented in alphabet A (integers) to an alphabet B (letters + integers) which is more compact. It is important to note that all transformations must have two properties:

  • Applying a transformation algorithm to data, does not loose information.
  • All transformation algorithms are reversible, such that the original representation can be reconstructed from the new alphabet.

Approximations

Approximations are algorithms which loose information for the sake of better compression. Given a threshold theta (this can be absolute or relative), the algorithm maps the data from alphabet A to B with an information lose within the expected threshold. An example for an approximation is the ~= operator known from primary school e.g. 1/3 ~= 0.3. Approximations have the following properties:

  • Applying an approximation algorithm to data, results in information loss.
  • Approximation algorithms are not reversible.
  • The information loss is guaranteed to be within the threshold theta

Codings

Codings are algorithms where the actual compression happens. The information is being saved on disk as compact as possible. Examples are Huffman or Arithmetic coding.

Checksums

Checksums are algorithms to check the integrity of the data at each step e.g. Adler-32.

Commit count: 164

cargo fmt