CodExt is a (Python2-3 compatible) library that extends the native codecs
library (namely for adding new custom encodings and character mappings) and provides 120+ new codecs, hence its name combining CODecs EXTension. It also features a guess mode for decoding multiple layers of encoding and CLI tools for convenience.
$ pip install codext
Want to contribute a new codec ? | Want to contribute a new macro ? |
---|---|
Check the documentation first Then PR your new codec |
PR your updated version of macros.json |
$ codext -i test.txt encode dna-1
GTGAGCGGGTATGTGA
$ echo -en "test" | codext encode morse
- . ... -
$ echo -en "test" | codext encode braille
⠞⠑⠎⠞
$ echo -en "test" | codext encode base100
👫👜👪👫
$ echo -en "Test string" | codext encode reverse
gnirts tseT
$ echo -en "Test string" | codext encode reverse morse
--. -. .. .-. - ... / - ... . -
$ echo -en "Test string" | codext encode reverse morse dna-2
AGTCAGTCAGTGAGAAAGTCAGTGAGAAAGTGAGTGAGAAAGTGAGTCAGTGAGAAAGTCAGAAAGTGAGTGAGTGAGAAAGTTAGAAAGTCAGAAAGTGAGTGAGTGAGAAAGTGAGAAAGTC
$ echo -en "Test string" | codext encode reverse morse dna-2 octal
101107124103101107124103101107124107101107101101101107124103101107124107101107101101101107124107101107124107101107101101101107124107101107124103101107124107101107101101101107124103101107101101101107124107101107124107101107124107101107101101101107124124101107101101101107124103101107101101101107124107101107124107101107124107101107101101101107124107101107101101101107124103
$ echo -en "AGTCAGTCAGTGAGAAAGTCAGTGAGAAAGTGAGTGAGAAAGTGAGTCAGTGAGAAAGTCAGAAAGTGAGTGAGTGAGAAAGTTAGAAAGTCAGAAAGTGAGTGAGTGAGAAAGTGAGAAAGTC" | codext -d dna-2 morse reverse
test string
$ codext add-macro my-encoding-chain gzip base63 lzma base64
$ codext list macros
example-macro, my-encoding-chain
$ echo -en "Test string" | codext encode my-encoding-chain
CQQFAF0AAIAAABuTgySPa7WaZC5Sunt6FS0ko71BdrYE8zHqg91qaqadZIR2LafUzpeYDBalvE///ug4AA==
$ codext remove-macro my-encoding-chain
$ codext list macros
example-macro
$ echo "Test string !" | base122
*.7!ft9�-f9Â
$ echo "Test string !" | base91
"ONK;WDZM%Z%xE7L
$ echo "Test string !" | base91 | base85
B2P|BJ6A+nO(j|-cttl%
$ echo "Test string !" | base91 | base85 | base36 | base58-flickr
QVx5tvgjvCAkXaMSuKoQmCnjeCV1YyyR3WErUUErFf
$ echo "Test string !" | base91 | base85 | base36 | base58-flickr | base58-flickr -d | base36 -d | base85 -d | base91 -d
Test string !
$ echo "Test string !" | base91 | base85 | base36 | base58-flickr | unbase -m 3
Test string !
$ echo "Test string !" | base91 | base85 | base36 | base58-flickr | unbase -f Test
Test string !
Getting the list of available codecs:
>>> import codext
>>> codext.list()
['ascii85', 'base85', 'base100', 'base122', ..., 'tomtom', 'dna', 'html', 'markdown', 'url', 'resistor', 'sms', 'whitespace', 'whitespace-after-before']
>>> codext.encode("this is a test", "base58-bitcoin")
'jo91waLQA1NNeBmZKUF'
>>> codext.encode("this is a test", "base58-ripple")
'jo9rA2LQwr44eBmZK7E'
>>> codext.encode("this is a test", "base58-url")
'JN91Wzkpa1nnDbLyjtf'
>>> codecs.encode("this is a test", "base100")
'👫👟👠👪🐗👠👪🐗👘🐗👫👜👪👫'
>>> codecs.decode("👫👟👠👪🐗👠👪🐗👘🐗👫👜👪👫", "base100")
'this is a test'
>>> for i in range(8):
print(codext.encode("this is a test", "dna-%d" % (i + 1)))
GTGAGCCAGCCGGTATACAAGCCGGTATACAAGCAGACAAGTGAGCGGGTATGTGA
CTCACGGACGGCCTATAGAACGGCCTATAGAACGACAGAACTCACGCCCTATCTCA
ACAGATTGATTAACGCGTGGATTAACGCGTGGATGAGTGGACAGATAAACGCACAG
AGACATTCATTAAGCGCTCCATTAAGCGCTCCATCACTCCAGACATAAAGCGAGAC
TCTGTAAGTAATTCGCGAGGTAATTCGCGAGGTAGTGAGGTCTGTATTTCGCTCTG
TGTCTAACTAATTGCGCACCTAATTGCGCACCTACTCACCTGTCTATTTGCGTGTC
GAGTGCCTGCCGGATATCTTGCCGGATATCTTGCTGTCTTGAGTGCGGGATAGAGT
CACTCGGTCGGCCATATGTTCGGCCATATGTTCGTCTGTTCACTCGCCCATACACT
>>> codext.decode("GTGAGCCAGCCGGTATACAAGCCGGTATACAAGCAGACAAGTGAGCGGGTATGTGA", "dna-1")
'this is a test'
>>> codecs.encode("this is a test", "morse")
'- .... .. ... / .. ... / .- / - . ... -'
>>> codecs.decode("- .... .. ... / .. ... / .- / - . ... -", "morse")
'this is a test'
>>> with open("morse.txt", 'w', encoding="morse") as f:
f.write("this is a test")
14
>>> with open("morse.txt",encoding="morse") as f:
f.read()
'this is a test'
>>> codext.decode("""
=
X
:
x
n
r
y
Y
y
p
a
`
n
|
a
o
h
`
g
o
z """, "whitespace-after+before")
'CSC{not_so_invisible}'
>>> print(codext.encode("An example test string", "baudot-tape"))
***.**
. *
***.*
* .
.*
* .*
. *
** .*
***.**
** .**
.*
* .
* *. *
.*
* *.
* *. *
* .
* *.
* *. *
***.
*.*
***.*
* .*
-
base1
: useless, but for the sake of completeness -
base2
: simple conversion to binary (with a variant with a reversed alphabet) -
base3
: conversion to ternary (with a variant with a reversed alphabet) -
base4
: conversion to quarternary (with a variant with a reversed alphabet) -
base8
: simple conversion to octal (with a variant with a reversed alphabet) -
base10
: simple conversion to decimal -
base11
: conversion to digits with a "a" -
base16
: simple conversion to hexadecimal (with a variant holding an alphabet with digits and letters inverted) -
base26
: conversion to alphabet letters -
base32
: classical conversion according to the RFC4648 with all its variants (zbase32, extended hexadecimal, geohash, Crockford) -
base36
: Base36 conversion to letters and digits (with a variant inverting both groups) -
base45
: Base45 DRAFT algorithm (with a variant inverting letters and digits) -
base58
: multiple versions of Base58 (bitcoin, flickr, ripple) -
base62
: Base62 conversion to lower- and uppercase letters and digits (with a variant with letters and digits inverted) -
base63
: similar tobase62
with the "_
" added -
base64
: classical conversion according to RFC4648 with its variant URL (or file) (it also holds a variant with letters and digits inverted) -
base67
: custom conversion using some more special characters (also with a variant with letters and digits inverted) -
base85
: all variants of Base85 (Ascii85, z85, Adobe, (x)btoa, RFC1924, XML) -
base91
: Base91 custom conversion -
base100
(or emoji): Base100 custom conversion -
base122
: Base100 custom conversion -
base-genericN
: see base encodings ; supports any possible base
This category also contains ascii85
, adobe
, [x]btoa
, zeromq
with the base85
codec.
-
baudot
: supports CCITT-1, CCITT-2, EU/FR, ITA1, ITA2, MTK-2 (Python3 only), UK, ... -
baudot-spaced
: variant ofbaudot
; groups of 5 bits are whitespace-separated -
baudot-tape
: variant ofbaudot
; outputs a string that looks like a perforated tape -
bcd
: Binary Coded Decimal, encodes characters from their (zero-left-padded) ordinals -
bcd-extended0
: variant ofbcd
; encodes characters from their (zero-left-padded) ordinals using prefix bits0000
-
bcd-extended1
: variant ofbcd
; encodes characters from their (zero-left-padded) ordinals using prefix bits1111
-
excess3
: uses Excess-3 (aka Stibitz code) binary encoding to convert characters from their ordinals -
gray
: aka reflected binary code -
manchester
: XORes each bit of the input with01
-
manchester-inverted
: variant ofmanchester
; XORes each bit of the input with10
-
rotateN
: rotates characters by the specified number of bits (N belongs to [1, 7] ; Python 3 only)
-
a1z26
: keeps words whitespace-separated and uses a custom character separator -
cases
: set of case-related encodings (including camel-, kebab-, lower-, pascal-, upper-, snake- and swap-case, slugify, capitalize, title) -
dummy
: set of simple encodings (including integer, replace, reverse, word-reverse, substite and strip-spaces) -
octal
: dummy octal conversion (converts to 3-digits groups) -
octal-spaced
: variant ofoctal
; dummy octal conversion, handling whitespace separators -
ordinal
: dummy character ordinals conversion (converts to 3-digits groups) -
ordinal-spaced
: variant ofordinal
; dummy character ordinals conversion, handling whitespace separators
-
gzip
: standard Gzip compression/decompression -
lz77
: compresses the given data with the algorithm of Lempel and Ziv of 1977 -
lz78
: compresses the given data with the algorithm of Lempel and Ziv of 1978 -
pkzip_deflate
: standard Zip-deflate compression/decompression -
pkzip_bzip2
: standard BZip2 compression/decompression -
pkzip_lzma
: standard LZMA compression/decompression
⚠️ Compression functions are of course definitely NOT encoding functions ; they are implemented for leveraging the.encode(...)
API fromcodecs
.
-
affine
: aka Affine Cipher -
atbash
: aka Atbash Cipher -
bacon
: aka Baconian Cipher -
barbie-N
: aka Barbie Typewriter (N belongs to [1, 4]) -
citrix
: aka Citrix CTX1 password encoding -
railfence
: aka Rail Fence Cipher -
rotN
: aka Caesar cipher (N belongs to [1,25]) -
scytaleN
: encrypts using the number of letters on the rod (N belongs to [1,[) -
shiftN
: shift ordinals (N belongs to [1,255]) -
xorN
: XOR with a single byte (N belongs to [1,255])
⚠️ Crypto functions are of course definitely NOT encoding functions ; they are implemented for leveraging the.encode(...)
API fromcodecs
.
-
blake
: includes BLAKE2b and BLAKE2s (Python 3 only ; relies onhashlib
) -
checksums
: includes Adler32 and CRC32 (relies onzlib
) -
crypt
: Unix's crypt hash for passwords (Python 3 and Unix only ; relies oncrypt
) -
md
: aka Message Digest ; includes MD4 and MD5 (relies onhashlib
) -
sha
: aka Secure Hash Algorithms ; includes SHA1, 224, 256, 384, 512 (Python2/3) but also SHA3-224, -256, -384 and -512 (Python 3 only ; relies onhashlib
) -
shake
: aka SHAKE hashing (Python 3 only ; relies onhashlib
)
⚠️ Hash functions are of course definitely NOT encoding functions ; they are implemented for convenience with the.encode(...)
API fromcodecs
and useful for chaning codecs.
-
braille
: well-known braille language (Python 3 only) -
ipsum
: aka lorem ipsum -
galactic
: aka galactic alphabet or Minecraft enchantment language (Python 3 only) -
leetspeak
: based on minimalistic elite speaking rules -
morse
: uses whitespace as a separator -
navajo
: only handles letters (not full words from the Navajo dictionary) -
radio
: aka NATO or radio phonetic alphabet -
southpark
: converts letters to Kenny's language from Southpark (whitespace is also handled) -
southpark-icase
: case insensitive variant ofsouthpark
-
tap
: converts text to tap/knock code, commonly used by prisoners -
tomtom
: similar tomorse
, using slashes and backslashes
-
dna
: implements the 8 rules of DNA sequences (N belongs to [1,8]) -
letter-indices
: encodes consonants and/or vowels with their corresponding indices -
markdown
: unidirectional encoding from Markdown to HTML
-
hexagram
: uses Base64 and encodes the result to a charset of I Ching hexagrams (as implemented here) -
klopf
: aka Klopf code ; Polybius square with trivial alphabetical distribution -
resistor
: aka resistor color codes -
rick
: aka Rick cipher (in reference to Rick Astley's song "Never gonna give you up") -
sms
: also called T9 code ; uses "-
" as a separator for encoding, "-
" or "_
" or whitespace for decoding -
whitespace
: replaces bits with whitespaces and tabs -
whitespace_after_before
: variant ofwhitespace
; encodes characters as new characters with whitespaces before and after according to an equation described in the codec name (e.g. "whitespace+2*after-3*before
")
-
html
: implements entities according to this reference -
url
: aka URL encoding