Dashycode ========= Dashycode is a code for arbitrary strings into a restricted lowercase-alphanumeric-with-dashes character set. For instance: > Dashycode.encode("What IS Dashycode, really? πŸ€”") 'what-is-dashycode-really--3x2awuinvx5eznar3' > Dashycode.decode('what-is-dashycode-really--3x2awuinvx5eznar3') 'What IS Dashycode, really? πŸ€”' Its intended use is to reversibly store arbitrary strings in URLs or domain-names as human-readably as possible. Dashycode is similar to other ways of encoding strings into restricted character sets, like urlencoding, punycode, or Base64. It's more human-readable than urlencoding or Base64, and can handle strings punycode can't handle. # Features Dashycode's output is guaranteed to be a valid domain name (ignoring length considerations). In addition to containing only lowercase alphanumeric characters and dashes, it is guaranteed to be non-empty, and to never start nor end with a dash. > Dashycode.encode("") '0--0' > Dashycode.encode(" ") '0--05' > Dashycode.encode("ζ—₯本θͺž") '0--0htdqm79vxb74' As an encoding, Dashycode is reversible: any string will always encode to a unique output which decodes to that exact original string. Everything is preserved: capitalization, whitespace, etc. > Dashycode.decode("0--0") '' > Dashycode.decode("0--05") ' ' > Dashycode.decode("0--0htdqm79vxb74") 'ζ—₯本θͺž' Dashycode is designed for human-readable text, but any data you can stuff into a JavaScript string can be encoded. However, if you primarily want to encode binary data, you should probably be using [Base32]. (Dashycode is ~20% less efficient than Base32 for max-entropy binary data.) [Base32]: https://en.wikipedia.org/wiki/Base32 # Readability Dashycode tries to be maximally readable. Strings containing only lowercase alphanumeric characters are returned unmodified: > Dashycode.encode("lettersandnumb3rsonly") 'lettersandnumb3rsonly' Strings containing spaces are returned with dashes: > Dashycode.encode("this is a lowercase sentence") 'this-is-a-lowercase-sentence' Only strings with other characters (or with multiple spaces in a row) will have an additional code tacked onto the end, in a way that maximizes readability: > Dashycode.encode("This is a regular sentence.") 'this-is-a-regular-sentence--32e5' Also for readability, the code part will not contain `0`, `o`, `l`, or `1`. # Compared to other encodings Dashycode encodes/decodes text, like urlencoding or Punycode. Of these, Dashycode is most similar to Punycode, in terms of readability as well as being a valid domain name. The main difference is that Punycode is not designed to encode all text, and cannot create a valid domain name if the input contains ASCII symbols. > punycode.encode("This is *&@^$&") 'This is *&@^$&-' > Dashycode.encode("This is *&@^$&") 'this-is--3mbqscmxi7' Compared to urlencoding, Dashycode is much more readable. > encodeURIComponent("100% of sentences should be readable") '100%25%20of%20sentences%20should%20be%20readable' > Dashycode.encode("100% of sentences should be readable") '100-of-sentences-should-be-readable--ke' Dashycode is only ~20% less efficient than Punycode on pure non-ASCII text: > punycode.encode("ζ—₯本θͺžγ―いい言θͺžγ¨ζ€γ„ます。") 'r6j3gaa9hwd0b0h4388bzcm1md968luxbea' > Dashycode.encode("ζ—₯本θͺžγ―いい言θͺžγ¨ζ€γ„ます。") '0--0htdqm79vxb7yh5eg4389j2m52cwxb7ya5eyg2e9j2mvhitm7sw42e' The reason for the slightly lower efficiency on non-ASCII text is to make common ASCII text very efficient: > Dashycode.encode("Add dash dash three to capitalize") 'add-dash-dash-three-to-capitalize--3' > Dashycode.encode("CamelCase") 'camelcase--fa' # License MIT license