Grammar
K syntax can be described with the following one-line grammar[1]:
E:E;e|e e:nve|te| t:n|v v:tA|V n:t[E]|(E)|{E}|N
or in more verbose form:
<Exprs> ::= <Exprs> ";" <expr> | <expr> <expr> ::= <noun> <verb> <expr> | <term> <expr> | empty <term> ::= <noun> | <verb> <verb> ::= <term> <Adverb> | <Verb> <noun> ::= <term> "[" <Exprs> "]" | "(" <Exprs> ")" | "{" <Exprs> "}" | <Noun>
<Adverb>, <Verb>, and <Noun> can be further defined (with minor variations between dialects) as:
<Adverb> ::= "'" | "/" | "\" | "':" | "/:" | "\:" <Verb> ::= <Verb1> | <Verb1> ":" <Verb1> ::= ":" | "+" | "-" | "*" | "%" | "!" | "&" | "|" | "<" | ">" | "=" | "~" | "," | "^" | "#" | "_" | "$" | "?" | "@" | "." | <Digit> ":" <Noun> ::= <Names> | <Ints> | <Floats> | <String> | <Symbols> <Names> ::= <Names> "." <Name> | <Name> <Name> ::= <Letter> | <Name> <Letter> | <Name> <Digit> <Ints> ::= <Int> | <Ints> " " <Int> <Int> ::= "-" <Digits> | <Digits> <Floats> ::= <Float> | <Floats> " " <Float> <Float> ::= <Int> | <Int> "." <Digits> | <Int> "." <Digits> "e" <Int> <String> ::= '"' <Chars> '"' | "0x" <Bytes> <Chars> ::= <Chars> <Char> | empty <Char> ::= "\0" | "\t" | "\n" | "\r" | '\"' | "\\" | any <Bytes> ::= <Bytes> <Hex> <Hex> | empty <Symbols>::= <Symbols> <Symbol> | <Symbol> <Symbol> ::= "`" | "`" <Name> | "`" <String> <Digits> ::= <Digit> | <Digits> <Digit> <Digit> ::= "0" | .. | "9" <Hex> ::= <Digit> | "a" | .. | "f" <Letter> ::= "A" | .. | "Z" | "a" | .. | "z"
K can be parsed statically - no knowledge about the runtime values of variables is required to build a parse tree.