Emoji Working Group
emoji checksum mapping
Status of This Document
This document provides information for the community. This document does not specify a standard of any kind. It is open to suggestions and discussion for improvements. This document is presently a draft and will apply versioning of the documents as needed. Distribution of this document is unlimited.
Permission is granted to copy and distribute this document for any purpose and without charge, including translations into other languages and incorporation into compilations, provided that the copyright notice and this notice are preserved, and that any substantive changes or deletions from the original are clearly marked.
A pointer to the latest version of the canonical JSON is the URL: http://emoji.thisco.de/draft/emojimap.json A pointer to the latest version of this spec the URL: http://emoji.thisco.de/draft/ Related documentation in can be found at the URL: http://emoji.thisco.de/
This document specifies a practice of mapping an 8bit byte to one of a corresponding list of 256 emoji strings.
emojimap.json JSON is the authority of ordering.
There is a generated visualiztion of this JSON document at
While this directory contains golang source that is is importable by golang
projects, other languages can fetch the ordered list of the JSON document and
do their own emojisum comparison or rendering.
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in RFC 2119.
The purpose of this practice is provide simplified way to convey checksums for visual comparison.
This is intended for use by implementors of software to convey checksums or validate conveyed checksums or unique fingerprints.
By operating on an 8bit byte, this provides the oportunity for 256 permutations.
Most checksums convey in a hexadecimal notation, there showing a par of case-insensitive hexadecimal characters per byte (
16*16 = 256).
Having a mapping of 256 emojis this thereby reduces the number of characters (or emojis) needed to convey the checksum.
In example, a SHA1 checksum is 40 hexadecimal characters long, whereas an SHA1-emojisum is only 20 emojis.
In the common document
emojimap.json there is an ordered list of arrays.
Each array contains a set of strings that are either a human readable word or the human readable unicode point.
For example, byte
0xe8 (position 232) is
For more complex and visually similar emoji there are times that the unicode is a combination.
This is the case for flags and people.
For example, byte
0xd9 (position 217) includes
When there is a combination, implementations MUST split on the "